1
P 10
4 * GENERAL PARAMETERS *
TOTALTIME 3 1e-09 Total time of the simulation  [UNITS: seconds]
TEMPERATURE 2 300 Temperature of the simulation [UNITS: Celsius]
FLAGRANDOM 0 0 TRUE=Generates a random at the begining of the simulation so that it makes the repetitions to provide not identical results.
REPETITIONS 1 0 Number of repetitions of the global simulation (0 means no repetition)
3 * PARTICLE COMPUTATION *
NPMAX 1 4000 Maximum number of particles that will be generated in memeory. If the number of explicitly simulated particles at one time is greater than this number, the BITLLES will generate an error
MAXTIME 3 1e-11 Maximum time that a particle will "live" in the simulating region [UNITS=seconds]. After such time the particle is eliminated of th esimulation box. This number is saved in the final file PARTICLES.TXT. A good simulation is expected to give a zero number.
NATURE_OF_THE_PARTICLES 4 2 
CLASSICALPARTICLES 1 0
CLASSICALPARTICLES 0 1 tRUE=The velocity of the particles is computed from the Newton velocity
BOHMIANPARTICLES 4 1
BOHMIANPARTICLES 0 0 TRUE=The velocity of the particles is computed from the Bohmian velocity
X1 3 1.2e-07 The initial wavepaket is situated outside of the simulated box. X1 is the distance from the central position of the wavepacket till the begining of the of the simulation box [UNITS=metres]
X2 3 1.2e-07 The initial wavepaket is situated outside of the simulated box. X2 is the distance from the beggining of this non-simulated region till the central position of the wavepacket [UNITS=metres]
DISPERSIOX 3 2.5e-08 Spatial dispersion of the initial (gaussian) wavepacket  [UNITS=metres]
3 * WAVE COMPUTATION *
DTSCHO 3 1e-17 Temporal step for solving the Schrodinger equation [UNITS: seconds]
FLAGEXCHANGE 0 0 TRUE=Calcula la funcio de moltes particules antisimetrica
SOLVINGMETHOD 4 3 
EFFECTIVEMASS 6 1
EFFECTIVEMASS 0 1 TRUE=Effective mass is activated to solve the wavepackets time-evolution
CONFINMENTX 0 0 TRUE=There is quanization in the x dimension (RED AXES). The state in this direction is assumed a half sinosidal state introducing a quantization energy into the simulation.
CONFINMENTY 0 1 TRUE=There is quanization in the y dimension (GREEN AXES). The state in this direction is assumed a half sinosidal state introducing a quantization energy into the simulation.
CONFINMENTZ 0 1 TRUE=There is quanization in the z dimension (BLUE AXES). The state in this direction is assumed a half sinosidal state introducing a quantization energy into the simulation.
NUMBEROFPOSITIONS 1 1000 Number of Bohmian positions that can be selected in the lateral position.
DXSCHO 3 2e-10 Spatial step for solving the Schrodinger (effective mass) equation [UNITS: metres]
EFFECTIVEMASSSUPERPOSITION 6 0
EFFECTIVEMASSSUPERPOSITION 0 0 TRUE=A more rapid algorithm for solving the Schrodinger (effective mass) equation is activated. It is only valid for time-independent potentials.
NINTKASN 1 300 Number of positive discrete wavevectors used to define the wavepacket
NINTKASP 1 300 Number of negative discrete wavevectors used to define the wavepacket
ENEINF 2 0.0001 Minimum energy realted with the first positive wavevector defined above [UNITS:eV]
ENESUP 2 2 Maximum energy realted with the last  positive wavevector defined above [UNITS:eV]
NINTENERG 1 150 Number of the discrete energies between the limits defined above
TIGHTBINDING 1 0
TIGHTBINDING 0 0 TRUE=Tight-binding is activated to solve the wavepackets time-evolution
4 * COULOMB COPMPUTATION *
DTPOISSON 3 5e-16 Temporal step for solving the Poisson equation [UNITS: seconds]
DISRADIBOHR 3 5e-10 Distance realted with the conditions of reserevoirs as peerfect Metal [UNITS:m]
FLAGCOULOMB 0 1 TRUE=Solving the 3D Poisson equation (i.e. time-dependent potentials)
FLAGMANYCOULOMB 0 1 TRUE=Solving the 3D Poisson equation for each electron (algorithm beyond the mean field)
3 * SCATTERING COMPUTATION *
ENEINFSCAT 2 0.0001 Minimum energia for the compuattion of scattering rates [UNITS=eV]
ENESUPSCAT 2 2 Maximum energia for the compuattion of scattering rates [UNITS=eV]
NINTENERGSCAT 1 150 Number of the discrete energies between the limits defined above
1 * MEASUREMENT COMPUTATION *
MEASUREMENT 4 1 
CURRENTOPERATOR 4 1
CURRENTOPERATOR 0 0 TRUE=The measurement of the current implies of modification of the current because of the current operator
SIGMAMOMENT 3 1e+09 The dispersion of the weak operator [UNITS=Ampers]
TIMECURRENT 3 5e-15 Time interval when the (operator) mesurement of the current is done [UNITS=s]
INITIALTIME 3 5e-16 Initial Time when the (operator) mesurement of the current begins [UNITS=s]
4 * INJECTION *
FLAGCONTINOUS 0 1 TRUE=A continous injection of electrons acording to the defined TEMPERATURE and FERMI LEVELS of the materials will be acomplished FALSE=The injection will be only the discrete electrons defined above.
NUMBER_ENE 1 150 Number of disctrete energies for selecting the injection energy
ENERGY_RES 2 8 Maximum energy for selecrting the continous injection of electrons [UNITS=eV]
NUMBEROFELECTRONS 4 8 
ELECTRON1 10 1
ACTIVAT 0 0 TRUE=the electron will be effectivelly injected
KX 3 8e+08 wavevector in the x direction [UNITS=1/m]
KY 3 4e+06 wavevector in the y direction [UNITS=1/m]
KZ 3 4e+06 wavevector in the z direction [UNITS=1/m]
DIMLAT1 2 0.5 Normalized distance in the lateral y position on the injecting surface [UNITS=m]
DIMLAT2 2 0.5 Normalized distance in the lateral z position on the injecting surface [UNITS=m]
TIME 3 2e-16 Injecting time [UNITS=s]
INJECTINGVOLUM 1 3 Number of volum where injection takes place (see list)
NVALLE 1 1 Valley of the injection
SPINUP 0 0 tRUE=Spin up;: false=Spin down
ELECTRON2 10 0
ACTIVAT 0 0 tRUE=the electron will be effectivelly injected
KX 3 5e+08 wavevector in the x direction [UNITS=1/m]
KY 3 5e+08 wavevector in the y direction [UNITS=1/m]
KZ 3 5e+08 wavevector in the z direction [UNITS=1/m]
DIMLAT1 2 0.5 Normalized distance in the lateral y position on the injecting surface [UNITS=m]
DIMLAT2 2 0.5 Normalized distance in the lateral z position on the injecting surface [UNITS=m]
TIME 3 1e-15 Injecting time [UNITS=s]
INJECTINGVOLUM 1 1 Number of volum where injection takes place (see list)
NVALLE 1 1 Valley of the injection
SPINUP 0 1 TRUE=Spin up;: false=Spin down
ELECTRON3 10 0
ACTIVAT 0 0 tRUE=the electron will be effectivelly injected
KX 3 5e+08 wavevector in the x direction [UNITS=1/m]
KY 3 5e+08 wavevector in the y direction [UNITS=1/m]
KZ 3 5e+08 wavevector in the z direction [UNITS=1/m]
DIMLAT1 2 0.5 Normalized distance in the lateral y position on the injecting surface [UNITS=m]
DIMLAT2 2 0.5 Normalized distance in the lateral z position on the injecting surface [UNITS=m]
TIME 3 1e-13 Injecting time [UNITS=s]
INJECTINGVOLUM 1 1 Number of volum where injection takes place (see list)
NVALLE 1 1 Valley of the injection
SPINUP 0 1 TRUE=Spin up;: false=Spin down
ELECTRON4 10 0
ACTIVAT 0 0 tRUE=the electron will be effectivelly injected
KX 3 5e+08 wavevector in the x direction [UNITS=1/m]
KY 3 5e+08 wavevector in the y direction [UNITS=1/m]
KZ 3 5e+08 wavevector in the z direction [UNITS=1/m]
DIMLAT1 2 0.5 Normalized distance in the lateral y position on the injecting surface [UNITS=m]
DIMLAT2 2 0.5 Normalized distance in the lateral z position on the injecting surface [UNITS=m]
TIME 3 1e-13 Injecting time [UNITS=s]
INJECTINGVOLUM 1 1 Number of volum where injection takes place (see list)
NVALLE 1 1 Valley of the injection
SPINUP 0 1 TRUE=Spin up;: false=Spin down
ELECTRON5 10 0
ACTIVAT 0 0 tRUE=the electron will be effectivelly injected
KX 3 5e+08 wavevector in the x direction [UNITS=1/m]
KY 3 5e+08 wavevector in the y direction [UNITS=1/m]
KZ 3 5e+08 wavevector in the z direction [UNITS=1/m]
DIMLAT1 2 0.5 Normalized distance in the lateral y position on the injecting surface [UNITS=m]
DIMLAT2 2 0.5 Normalized distance in the lateral z position on the injecting surface [UNITS=m]
TIME 3 1e-13 Injecting time [UNITS=s]
INJECTINGVOLUM 1 1 Number of volum where injection takes place (see list)
NVALLE 1 1 Valley of the injection
SPINUP 0 1 TRUE=Spin up;: false=Spin down
ELECTRON6 10 0
ACTIVAT 0 0 tRUE=the electron will be effectivelly injected
KX 3 5e+08 wavevector in the x direction [UNITS=1/m]
KY 3 5e+08 wavevector in the y direction [UNITS=1/m]
KZ 3 5e+08 wavevector in the z direction [UNITS=1/m]
DIMLAT1 2 0.5 Normalized distance in the lateral y position on the injecting surface [UNITS=m]
DIMLAT2 2 0.5 Normalized distance in the lateral z position on the injecting surface [UNITS=m]
TIME 3 1e-13 Injecting time [UNITS=s]
INJECTINGVOLUM 1 1 Number of volum where injection takes place (see list)
NVALLE 1 1 Valley of the injection
SPINUP 0 1 TRUE=Spin up;: false=Spin down
ELECTRON7 10 0
ACTIVAT 0 0 tRUE=the electron will be effectivelly injected
KX 3 5e+08 wavevector in the x direction [UNITS=1/m]
KY 3 5e+08 wavevector in the y direction [UNITS=1/m]
KZ 3 5e+08 wavevector in the z direction [UNITS=1/m]
DIMLAT1 2 0.5 Normalized distance in the lateral y position on the injecting surface [UNITS=m]
DIMLAT2 2 0.5 Normalized distance in the lateral z position on the injecting surface [UNITS=m]
TIME 3 1e-13 Injecting time [UNITS=s]
INJECTINGVOLUM 1 1 Number of volum where injection takes place (see list)
NVALLE 1 1 Valley of the injection
SPINUP 0 1 TRUE=Spin up;: false=Spin down
ELECTRON8 10 0
ACTIVAT 0 0 tRUE=the electron will be effectivelly injected
KX 3 5e+08 wavevector in the x direction [UNITS=1/m]
KY 3 5e+08 wavevector in the y direction [UNITS=1/m]
KZ 3 5e+08 wavevector in the z direction [UNITS=1/m]
DIMLAT1 2 0.5 Normalized distance in the lateral y position on the injecting surface [UNITS=m]
DIMLAT2 2 0.5 Normalized distance in the lateral z position on the injecting surface [UNITS=m]
TIME 3 1e-13 Injecting time [UNITS=s]
INJECTINGVOLUM 1 1 Number of volum where injection takes place (see list)
NVALLE 1 1 Valley of the injection
SPINUP 0 1 TRUE=Spin up; false=Spin down
1 * INITIAL  OUTPUTS *
RAMOPOTEN 0 1 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
1 * EVOLVING OUTPUTS *
EVOLVING_OUTPUT 4 8 
CURRENT3DRAMO 9 0
CURRENT3DRAMO 0 0 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
CURR3DSAVETIME 3 5.6e-16 Step-time for saving the Ramo-Shockley-pellegrini 3D current
FLINEAR 0 1 TRUE=Linear expression for Ramo-Shockley-Pellegrini fields is used
MINX 1 3 Minimum cell in the x direction (red axis) from the origin of the volum where the total current is computed
MAXX 1 18 Maximum cell in the x direction (red axis) from the origin of the volum where the total current is computed
MINY 1 2 Minimum cell in the y direction (green axis) from the origin of the volum where the total current is computed
MAXY 1 6 Maximum cell in the y direction (green axis) from the origin of the volum where the total current is computed
MINZ 1 2 Minimum cell in the z direction (blue axis) from the origin of the volum where the total current is computed
MAXZ 1 6 Maximum cell in the z direction (blue axis) from the origin of the volum where the total current is computed
CURRENTNORMAL 2 0
CURRENTNORMAL 0 1 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
CURRSAVETIME 3 6e-16 Step-time for saving the normal CURRENT file
PARTICLES 2 0
PARTICLES 0 0 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
PARSAVETIME 3 6e-16 Step-time for saving the PARTICLES file
NEUTRALITY 2 0
NEUTRALITY 0 0 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
NEUSAVETIME 3 5e-15 Step-time for saving the NEUTRALITY file
RESERVOIRS 2 0
RESERVOIRS 0 0 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
RESAVETIME 3 5e-15 Step-time for saving the RESERVOIR file
TRAJECTORY 2 0
TRAJECTORY 0 1 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
TRASAVETIME 3 5e-16 Step-time for saving the TRAJECTORY file
MOVI 4 0
MOVI 0 0 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
INITIALTIME 3 2e-16 Initial time for saving the movi picture
FINALTIME 3 8e-14 Initial time for saving the movi picture
NUMFRAMES 1 100 Number of frames
SCREEN 2 1
SCREEN 0 1 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
SCREENTIME 3 5e-16 Step-time for writing outputs in the screen
1 * FINAL OUTPUT *
FINAL_OUTPUTS 4 5 
XYZDISTRIBUTION 2 0
XYZDISTRIBUTION 0 1 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
TRANSPOISSON 3 8e-14 Temporal time before starting averaging poisson results [UNITS: seconds]
TRANSMISSIONAVG 2 0
TRANSMISSIONAVG 0 0 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
TRANSTRANS 3 2e-14 Temporal time before starting averaging transmission results [UNITS: seconds]
KXDISTRIBUTION 5 0
KXDISTRIBUTION 0 0 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
NINTKASNDIS 1 300 Number of negative momentum considered
NINTKASPDIS 1 300 Number of positive momentum considered
ENESUPDIS 2 3.4 Maximum energy considered in the distribution of the momentum above  [UNITS: eV]
TRANSDISTN 3 2e-14 Temporal time before starting averaging distribution results [UNITS: seconds]
INJECTION 2 0
INJECTION 0 0 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
NUMHIST 1 10000 Number maximum of samples for doing the statistics of injection
ELECTRICPOWER 1 1
ELECTRICPOWER 0 0 TRUE=Actived. See Part 2 : Output files in the Help menu at http://europe.uab.es/bitlles
M 7
Air
2
0 125 255
1 0 0
0 1 0
0 0 1
1
0.5 0.5 0.5
4
6 * GENERAL_PARAMETERS *
PERMREL 2 10.9 Relative permittivity [UNITS: without units (i.e. times the vaccum permittivity)]
DOP 2 0 Doping density [UNITS: Coulombs/metre^3]
FERMI 2 0.15 Fermi energy above the conduction band [UNITS: electronVolt]
OFFSET 2 0 Conduction band offset [UNITS: electronVolt] An Ohmic mathcing between two materials is done by fixing OFFSET=0 for both materials.
DEGENERACY 1 1 Degeneracy [USED: for determining the rate of injection]
PROBSPINUP 2 0.5 Probability of electrons with spin up [USED: for determining the rate of injection]
1 * EFFECTIVE MASS STRCUTURE *
NUMBEROFVALLEYS 4 6 
VALLEY1 6 0
VALLEY1 0 1 TRUE=The valley is activated
VMEFX 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 1 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY2 6 0
VALLEY2 0 0 TRUE=The valley is activated
VMEFX 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY3 6 0
VALLEY3 0 0 TRUE=The valley is activated
VMEFX 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY4 6 0
VALLEY4 0 0 TRUE=The valley is activated
VMEFX 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY5 6 0
VALLEY5 0 0 TRUE=The valley is activated
VMEFX 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY6 6 0
VALLEY6 0 0 TRUE=The valley is activated
VMEFX 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
7 * SCATTERING_RATES *
ALPHA 2 0 Non parabolicity of the band structure [UNITS: without units ]
DENSITY 2 2329 Material density [UNITS: kg/m^3]
VELSO 2 9040 Sound velocity [UNITS: m/s]
PDA 2 9.5 Acoustic deformation potential [Units: eV]
EMEFD 2 0.32 Material effective mass  SRT(Mx*My*Mz)
FACTORFORMA 3 3.75e+09 Use in 2D scattering;  3/(4*confinement direction length).
NUMBER_OF_PHONONS 4 6 
PHONON1 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 5e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.012 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON2 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 8e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON3 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 1.1e+11 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.062 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON4 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 3e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON5 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.037 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON6 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.059 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
2 * TIGHT-BINDING STRCUTURE *
STRUCTURE 1 1 1=Hexagonal (graphene)
NUMBEROFBANDS 4 6 
BAND1 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND2 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND3 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND4 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND5 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND6 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
GaAs
4
0 255 0
0.5 0.1 0
0 0.5 0
0 0 0.5
1
0.2 0.2 0.2
4
6 * GENERAL PARAMETERS *
PERMREL 2 13.18 Relative permittivity [UNITS: without units (i.e. times the vaccum permittivity)]
DOP 2 0 Doping density [UNITS: Coulombs/metre^3]
FERMI 2 0.5 Fermi energy above the conduction band [UNITS: electronVolt]
OFFSET 2 0 Conduction band offset [UNITS: electronVolt] An Ohmic mathcing between two materials is done by fixing OFFSET=0 for both materials.
DEGENERACY 1 1 Degeneracy [USED: for determining the rate of injection]
PROBSPINUP 2 0.5 Probability of electrons with spin up [USED: for determining the rate of injection]
1 * EFFECTIVE MASS STRCUTURE *
NUMBEROFVALLEYS 4 6 
VALLEY1 6 0
VALLEY1 0 1 TRUE=The valley is activated
VMEFX 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 1 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY2 6 0
VALLEY2 0 0 TRUE=The valley is activated
VMEFX 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY3 6 0
VALLEY3 0 0 TRUE=The valley is activated
VMEFX 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY4 6 0
VALLEY4 0 0 TRUE=The valley is activated
VMEFX 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY5 6 0
VALLEY5 0 0 TRUE=The valley is activated
VMEFX 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY6 6 1
VALLEY6 0 0 TRUE=The valley is activated
VMEFX 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.067 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
7 * SCATTERING_RATES *
ALPHA 2 0 Non parabolicity of the band structure [UNITS: without units ]
DENSITY 2 2329 Material density [UNITS: kg/m^3]
VELSO 2 9040 Sound velocity [UNITS: m/s]
PDA 2 9.5 Acoustic deformation potential [Units: eV]
EMEFD 2 0.32 Material effective mass  SRT(Mx*My*Mz)
FACTORFORMA 3 3.75e+09 Use in 2D scattering;  3/(4*confinement direction length).
NUMBER_OF_PHONONS 4 6 
PHONON1 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 5e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.012 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON2 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 8e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON3 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 1.1e+11 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.062 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON4 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 3e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON5 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.037 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON6 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.059 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
2 * TIGHT-BINDING STRCUTURE *
STRUCTURE 1 1 1=Hexagonal (graphene)
NUMBEROFBANDS 4 6 
BAND1 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND2 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND3 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND4 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND5 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND6 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
Polisilicon
3
255 140 0
0.5 0 0
0 0.5 0
0 0 0.5
1
0.5 0.5 0.5
4
6 * GENERAL PARAMETERS *
PERMREL 2 10.9 Relative permittivity [UNITS: without units (i.e. times the vaccum permittivity)]
DOP 2 0 Doping density [UNITS: Coulombs/metre^3]
FERMI 2 0.15 Fermi energy above the conduction band [UNITS: electronVolt]
OFFSET 2 0 Conduction band offset [UNITS: electronVolt] An Ohmic mathcing between two materials is done by fixing OFFSET=0 for both materials.
DEGENERACY 1 1 Degeneracy [USED: for determining the rate of injection]
PROBSPINUP 2 0.5 Probability of electrons with spin up [USED: for determining the rate of injection]
1 * EFFECTIVE MASS STRCUTURE *
NUMBEROFVALLEYS 4 6 
VALLEY1 6 0
VALLEY1 0 1 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 1 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY2 6 0
VALLEY2 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY3 6 0
VALLEY3 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY4 6 0
VALLEY4 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY5 6 0
VALLEY5 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY6 6 1
VALLEY6 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
7 * SCATTERING_RATES *
ALPHA 2 0 Non parabolicity of the band structure [UNITS: without units ]
DENSITY 2 2329 Material density [UNITS: kg/m^3]
VELSO 2 9040 Sound velocity [UNITS: m/s]
PDA 2 9.5 Acoustic deformation potential [Units: eV]
EMEFD 2 0.32 Material effective mass  SRT(Mx*My*Mz)
FACTORFORMA 3 3.75e+09 Use in 2D scattering;  3/(4*confinement direction length).
NUMBER_OF_PHONONS 4 6 
PHONON1 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 5e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.012 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON2 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 8e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON3 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 1.1e+11 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.062 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON4 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 3e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON5 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.037 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON6 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.059 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
2 * TIGHT-BINDING STRCUTURE *
STRUCTURE 1 1 1=Hexagonal (graphene)
NUMBEROFBANDS 4 6 
BAND1 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND2 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND3 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND4 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND5 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND6 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
Silicon
0
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1 0 0
0 1 0
0 0 1
1
0.5 0.5 0.5
4
6 * GENERAL PARAMETERS *
PERMREL 2 10.9 Relative permittivity [UNITS: without units (i.e. times the vaccum permittivity)]
DOP 2 0 Doping density [UNITS: Coulombs/metre^3]
FERMI 2 0.15 Fermi energy above the conduction band [UNITS: electronVolt]
OFFSET 2 0 Conduction band offset [UNITS: electronVolt] An Ohmic mathcing between two materials is done by fixing OFFSET=0 for both materials.
DEGENERACY 1 1 Degeneracy [USED: for determining the rate of injection]
PROBSPINUP 2 0.5 Probability of electrons with spin up [USED: for determining the rate of injection]
1 * EFFECTIVE MASS STRCUTURE *
NUMBEROFVALLEYS 4 6 
VALLEY1 6 0
VALLEY1 0 1 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 1 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY2 6 0
VALLEY2 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY3 6 0
VALLEY3 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY4 6 0
VALLEY4 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY5 6 0
VALLEY5 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY6 6 0
VALLEY6 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
7 * SCATTERING_RATES *
ALPHA 2 0 Non parabolicity of the band structure [UNITS: without units ]
DENSITY 2 2329 Material density [UNITS: kg/m^3]
VELSO 2 9040 Sound velocity [UNITS: m/s]
PDA 2 9.5 Acoustic deformation potential [Units: eV]
EMEFD 2 0.32 Material effective mass  SRT(Mx*My*Mz)
FACTORFORMA 3 3.75e+09 Use in 2D scattering;  3/(4*confinement direction length).
NUMBER_OF_PHONONS 4 6 
PHONON1 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 5e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.012 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON2 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 8e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON3 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 1.1e+11 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.062 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON4 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 3e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON5 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.037 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON6 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.059 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
2 * TIGHT-BINDING STRCUTURE *
STRUCTURE 1 1 1=Hexagonal (graphene)
NUMBEROFBANDS 4 6 
BAND1 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND2 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND3 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND4 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND5 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND6 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
Silicon2
5
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1 0 0
0 1 0
0 0 1
1
0.5 0.5 0.5
4
6 * GENERAL PARAMETERS *
PERMREL 2 10.9 Relative permittivity [UNITS: without units (i.e. times the vaccum permittivity)]
DOP 2 0 Doping density [UNITS: Coulombs/metre^3]
FERMI 2 0.15 Fermi energy above the conduction band [UNITS: electronVolt]
OFFSET 2 0 Conduction band offset [UNITS: electronVolt] An Ohmic mathcing between two materials is done by fixing OFFSET=0 for both materials.
DEGENERACY 1 1 Degeneracy [USED: for determining the rate of injection]
PROBSPINUP 2 0.5 Probability of electrons with spin up [USED: for determining the rate of injection]
1 * EFFECTIVE MASS STRCUTURE *
NUMBEROFVALLEYS 4 6 
VALLEY1 6 0
VALLEY1 0 1 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 1 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY2 6 0
VALLEY2 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY3 6 0
VALLEY3 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY4 6 0
VALLEY4 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY5 6 0
VALLEY5 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY6 6 0
VALLEY6 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
7 * SCATTERING_RATES *
ALPHA 2 0 Non parabolicity of the band structure [UNITS: without units ]
DENSITY 2 2329 Material density [UNITS: kg/m^3]
VELSO 2 9040 Sound velocity [UNITS: m/s]
PDA 2 9.5 Acoustic deformation potential [Units: eV]
EMEFD 2 0.32 Material effective mass  SRT(Mx*My*Mz)
FACTORFORMA 3 3.75e+09 Use in 2D scattering;  3/(4*confinement direction length).
NUMBER_OF_PHONONS 4 6 
PHONON1 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 5e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.012 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON2 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 8e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON3 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 1.1e+11 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.062 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON4 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 3e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON5 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.037 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON6 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.059 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
2 * TIGHT-BINDING STRCUTURE *
STRUCTURE 1 1 1=Hexagonal (graphene)
NUMBEROFBANDS 4 6 
BAND1 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND2 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND3 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND4 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND5 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND6 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
Silicon3
6
0 0 255
0.5 0 0
0 0.5 0
0 0 0.5
1
0.5 0.5 0.5
4
6 * GENERAL PARAMETERS *
PERMREL 2 10.9 Relative permittivity [UNITS: without units (i.e. times the vaccum permittivity)]
DOP 2 0 Doping density [UNITS: Coulombs/metre^3]
FERMI 2 0.15 Fermi energy above the conduction band [UNITS: electronVolt]
OFFSET 2 0 Conduction band offset [UNITS: electronVolt] An Ohmic mathcing between two materials is done by fixing OFFSET=0 for both materials.
DEGENERACY 1 1 Degeneracy [USED: for determining the rate of injection]
PROBSPINUP 2 0.5 Probability of electrons with spin up [USED: for determining the rate of injection]
1 * EFFECTIVE MASS STRCUTURE *
NUMBEROFVALLEYS 4 6 
VALLEY1 6 0
VALLEY1 0 1 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 1 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY2 6 0
VALLEY2 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY3 6 0
VALLEY3 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY4 6 0
VALLEY4 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY5 6 1
VALLEY5 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY6 6 0
VALLEY6 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
7 * SCATTERING_RATES *
ALPHA 2 0 Non parabolicity of the band structure [UNITS: without units ]
DENSITY 2 2329 Material density [UNITS: kg/m^3]
VELSO 2 9040 Sound velocity [UNITS: m/s]
PDA 2 9.5 Acoustic deformation potential [Units: eV]
EMEFD 2 0.32 Material effective mass  SRT(Mx*My*Mz)
FACTORFORMA 3 3.75e+09 Use in 2D scattering;  3/(4*confinement direction length).
NUMBER_OF_PHONONS 4 6 
PHONON1 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 5e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.012 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON2 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 8e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON3 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 1.1e+11 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.062 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON4 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 3e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON5 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.037 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON6 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.059 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
2 * TIGHT-BINDING STRCUTURE *
STRUCTURE 1 1 1=Hexagonal (graphene)
NUMBEROFBANDS 4 6 
BAND1 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND2 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND3 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND4 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND5 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND6 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
Silicondioxide
1
125 125 125
1 0 0
0 1 0
0 0 1
1
0.5 0.5 0.5
4
6 * GENERAL PARAMETERS *
PERMREL 2 10.9 Relative permittivity [UNITS: without units (i.e. times the vaccum permittivity)]
DOP 2 0 Doping density [UNITS: Coulombs/metre^3]
FERMI 2 0.15 Fermi energy above the conduction band [UNITS: electronVolt]
OFFSET 2 0 Conduction band offset [UNITS: electronVolt] An Ohmic mathcing between two materials is done by fixing OFFSET=0 for both materials.
DEGENERACY 1 1 Degeneracy [USED: for determining the rate of injection]
PROBSPINUP 2 0.5 Probability of electrons with spin up [USED: for determining the rate of injection]
1 * EFFECTIVE MASS STRCUTURE *
NUMBEROFVALLEYS 4 6 
VALLEY1 6 0
VALLEY1 0 1 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 1 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY2 6 0
VALLEY2 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY3 6 0
VALLEY3 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY4 6 0
VALLEY4 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY5 6 0
VALLEY5 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
VALLEY6 6 0
VALLEY6 0 0 TRUE=The valley is activated
VMEFX 2 0.9 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFY 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
VMEFZ 2 0.19 Relative effective mass valley [UNITS: without units (i.e. times the free electron mass)]
PROBVALL 2 0 Ocupation probability of valley [UNITS: without units]
ENERGY 2 0 Energy the minimum of the band above the absolute minimum of the conduction band [UNITS: eV]
7 * SCATTERING_RATES *
ALPHA 2 0 Non parabolicity of the band structure [UNITS: without units ]
DENSITY 2 2329 Material density [UNITS: kg/m^3]
VELSO 2 9040 Sound velocity [UNITS: m/s]
PDA 2 9.5 Acoustic deformation potential [Units: eV]
EMEFD 2 0.32 Material effective mass  SRT(Mx*My*Mz)
FACTORFORMA 3 3.75e+09 Use in 2D scattering;  3/(4*confinement direction length).
NUMBER_OF_PHONONS 4 6 
PHONON1 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 5e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.012 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON2 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 8e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON3 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 1.1e+11 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.062 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 1 Material valley multiplicity for this photon [UNITS: without units]
PHONON4 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 3e+09 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.019 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON5 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.037 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
PHONON6 4 0
PHONON 0 0 TRUE=The phonon is activated
PDO 3 2e+10 Intravalley optical deformation potential [UNITS: eV/m]
ENEPHOTON 2 0.059 Intravalley optical phonon energy [UNITS: eV]
MULVALLEY 1 4 Material valley multiplicity for this photon [UNITS: without units]
2 * TIGHT-BINDING STRCUTURE *
STRUCTURE 1 1 1=Hexagonal (graphene)
NUMBEROFBANDS 4 6 
BAND1 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND2 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND3 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND4 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND5 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
BAND6 21 0
NEIGHBOURS0 0 0 TRUE=The 0 neighbours is activated
REAL0 2 3 Real part of the interaction between 0 neighbours [UNITS: eV]
IMAG0 2 3 Imaginary part of the interaction between 0 neighbours [UNITS: eV]
NEIGHBOURS1 0 0 TRUE=The 1st neighbours is activated
REAL1 2 3 Real part of the interaction between 1st neighbours [UNITS: eV]
IMAG1 2 3 Imaginary part of the interaction between 1st neighbours [UNITS: eV]
NEIGHBOURS2 0 0 TRUE=The 2nd neighbours is activated
REAL2 2 3 Real part of the interaction between 2nd neighbours [UNITS: eV]
IMAG2 2 3 Imaginary part of the interaction between 2nd neighbours [UNITS: eV]
NEIGHBOURS3 0 0 TRUE=The 3rd neighbours is activated
REAL3 2 3 Real part of the interaction between 3rd neighbours [UNITS: eV]
IMAG3 2 3 Imaginary part of the interaction between 3rd neighbours [UNITS: eV]
NEIGHBOURS4 0 0 TRUE=The 4th neighbours is activated
REAL4 2 3 Real part of the interaction between 4th neighbours [UNITS: eV]
IMAG4 2 3 Imaginary part of the interaction between 4th neighbours [UNITS: eV]
NEIGHBOURS5 0 0 TRUE=The 4th neighbours is activated
REAL5 2 3 Real part of the interaction between 5th neighbours [UNITS: eV]
IMAG5 2 3 Imaginary part of the interaction between 5th neighbours [UNITS: eV]
NEIGHBOURS6 0 0 TRUE=The 6th neighbours is activated
REAL6 2 3 Real part of the interaction between 6th neighbours [UNITS: eV]
IMAG6 2 3 Imaginary part of the interaction between 6th neighbours [UNITS: eV]
V 9e-10 23
Canal
16 4 4
Silicon
0
26.5 27 28
8 4 4
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 1 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 1 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 0
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 0 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 1
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
draincontact
2 4 4
Silicon3
6
34.5 27 28
1 4 4
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 1 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 1 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 0 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
sourcecontact
2 4 4
Silicon2
5
25.5 27 28
1 4 4
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 1 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 1 TRUE=The volume is external with Dirichlet DC
VALUE 2 -0.02 voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 0 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
gate1
20 1 4
Polisilicon
3
25.5 25 28
10 1 4
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 1 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 0 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
gate2
20 1 4
Polisilicon
3
25.5 32 28
10 1 4
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 1 TRUE=The volume is external with Dirichlet DC
VALUE 2 -0.05 voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 0 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
gate3
20 4 1
Polisilicon
3
25.5 27 33
10 4 1
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 1 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 0 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
gate4
20 4 1
Polisilicon
3
25.5 27 26
10 4 1
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 1 TRUE=The volume is external with Dirichlet DC
VALUE 2 -0.05 voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 0 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
oxid1
16 1 4
Silicondioxide
1
26.5 26 28
8 1 4
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 1 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 0 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
oxid2
16 1 4
Silicondioxide
1
26.5 31 28
8 1 4
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 1 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 0
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 1
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 Voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 0 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
oxid3
16 4 1
Silicondioxide
1
26.5 27 32
8 4 1
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 1 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 0
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 Voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 1
ELECTRICFIELDZERO 0 0 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
oxid4
16 4 1
Silicondioxide
1
26.5 27 27
8 4 1
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 1 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 0
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 Voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 1
ELECTRICFIELDZERO 0 0 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
aire1
20 2 2
Air
2
25.5 25 26
10 2 2
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 0
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 Voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 1
ELECTRICFIELDZERO 0 1 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
aire2
20 2 2
Air
2
25.5 25 32
10 2 2
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 0
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 Voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 1
ELECTRICFIELDZERO 0 1 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
aire3
20 2 2
Air
2
25.5 31 32
10 2 2
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 0
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 Voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 1
ELECTRICFIELDZERO 0 1 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
aire4
20 2 2
Air
2
25.5 31 26
10 2 2
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 0
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 Voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 1
ELECTRICFIELDZERO 0 1 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
aire1deox1
2 1 4
Air
2
25.5 26 28
1 1 4
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 Voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 1 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
aire2deox1
2 1 4
Air
2
34.5 26 28
1 1 4
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 Voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 1 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
aire1deox2
2 1 4
Air
2
25.5 31 28
1 1 4
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 Voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 1 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
aire2deox2
2 1 4
Air
2
34.5 31 28
1 1 4
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 1 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
aire1deox3
2 4 1
Air
2
25.5 27 32
1 4 1
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 1 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
aire2deox3
2 4 1
Air
2
34.5 27 32
1 4 1
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 1 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
aire1deox4
2 4 1
Air
2
25.5 27 27
1 4 1
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 1 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 -0.5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]
aire2deox4
2 4 1
Air
2
34.5 27 27
1 4 1
0
2
2 * GENERAL_PROPERTIES *
FLAGSCATTERING 0 0 TRUE=Scattering is active in this volume. Valid for classcial particles
FLAGELECTRONS 0 0 TRUE=There is a flux of free electrons in this volme
1 * INTERNAL_EXTERNAL *
BOUNDARIES 4 6 
INTERNAL_NOBOUNDARY 1 0
INTERNAL 0 0 TRUE=The volume is internal. No boundary condition is necessary
EXTERNAL_DCBIAS 2 1
DCBIAS 0 0 TRUE=The volume is external with Dirichlet DC
VALUE 2 0 Voltage value [UNITS: Volts]
EXTERNAL_TRANSIENTBIAS 7 0
TRANSUENTBIAS 0 0 TRUE=The volume is external with Dirichlet transiebt bias. Each repetition takes the total time mentioned in general settings
VOLT1 2 0 Voltage value [UNITS: Volts]
VOLT2 2 1.5 Voltage value [UNITS: Volts]
VOLT3 2 0 Voltage value [UNITS: Volts]
STEPS12 1 10 Number of temproral steps to chgange from VOLT1 to VOLT2
STEPS23 1 10 Number of temproral steps to chgange from VOLT2 to VOLT3
INITIALIZE 0 0 TRUE=all variables are initializazed for each step of the transient simulation
EXTERNAL_ACBIAS 4 0
ACBIAS 0 0 TRUE=The volume is external with Dirichlet AC
FREQUENCY 3 1e+12 Linear frequency [UNITS: Hertz] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
AMPLITUDE 2 0.2 Voltage value for the amplitude [UNITS: Volts] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
FASE 2 0 Fase of the sinusoidal signal [UNITS: rad] AMPLITUDE*sin(2*pi*FREQUENCY*TIME+FASE)
EXTERNAL_ELECTRICFIELDZERO 1 0
ELECTRICFIELDZERO 0 1 TRUE=The volume is external with Neumman boundary conditions for solving electromagnetic Gauss equation
EXTERNAL_CHARGENEUTRALITY 13 0
CHARGENEUTRALITY 0 0 TRUE=The volume is external with Dirichlet conditions. The bias is applied far from the limits of the simulation box to ensure overall charge neutrality
LD 3 1.8e-09 Debye length of the contact [UNITS: m]
LENCON 3 6e-09 Non-simulated length of the contact [UNITS:m]
AREACON 3 2e-15 Lateral area of the contact [UNITS:m^2]
MOBILITY 3 2e+07 Mobility [UNITS:m^2/(V新)]
TDIELEC 3 5e-14 Dielectric relaxation time of the contact [UNITS: s]
TIMESTART 3 8e-13 Time when charge-neutrality algorithm starts [UNITS:s]
TINFILTRE 3 8e-14 Time interval for filtering input charge resutls [UNITS:s]
TOUTFILTRE 3 8e-14 Time interval for filtering output voltage resutls [UNITS:s]
NUMITERATION 1 500 Number of iteration when looking for new boundary conditions [NO UNITS]
FERMILEVELS 1 1000 Number of Fermi levels used for the algorithm [NO UNITS]
EC_MIN 2 0 5 Minimun diference between the conduction band and the fermi level [UNITS:eV]
EC_MAX 2 0.5 Maximum difference between the conduction band and teh fermi level [UNITS:eV]