1. 4.2.3.10. Flag:
XYZDISTRIBUTION
The number in the files is computed as 1000000+ITRA*10000+IREP, where IREP=0,...,NUMBER_OF_REPETITIONS and IREP=0,...,NUMBER_OF_STEPS (in the transient simulation).
2. 1.- File Name :
XYZDISTRIBUTION1000*.TXT
2.0.1. 1.- Data:
Column |
1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
9 |
10 |
11 |
variable |
POT(I,J,K) |
POTAVE(I,J,K) |
EXAVE(I,J,K) |
EZAVE(I,J,K) |
DOPING(I,J,K) |
CHARGE(I,J,K) |
CHARGE_ELE(I,J,K) |
SCAT(I,J,K) |
POWSCAT(I,J,K) |
POWCIN(I,J,K) |
POWQUA(I,J,K) |
POT(I,J,K)=Instantaneous 3D electrostatic potential [UNITS:V]
POTAVE(I,J,K)=Average 3D electrostatic potential [UNITS:V]
EXAVE(I,J,K)=Average 3D electric field X component [UNITS:V/m]
EZAVE(I,J,K)=Average 3D electric field X component [UNITS:V/m]
DOPING(I,J,K)=3D Doping [UNITS:C/m^3]
CHARGE(I,J,K)=3D "mean field" charge density [UNITS:C/m^3]
CHARGE_ELE(I,J,K)=3D "beyond mean field" charge density [UNITS:C/m^3] ( only activated when FLAG FLAGMANYCOULOMB=TRUE in COULOMB COMPUTATION)
SCAT(I,J,K)=# scattering events in each position ( only activated when FLAG POWER=TRUE in FINAL RESULTS)
POWSCAT(I,J,K)= Power balance due to scattering [UNITS: Watts] ( only activated when FLAG POWER=TRUE in FINAL RESULTS)
POWCIN(I,J,K)= Power balance due to dynamics (without scattering) [UNITS: Watts] ( only activated when FLAG POWER=TRUE in FINAL RESULTS)
POWQUA(I,J,K)= Power balance due to the quantum potential [UNITS: Watts] ( only activated when FLAG POWER=TRUE in FINAL RESULTS)
2.0.2. 1.- Observations:
POTELE(I,J,K)=Instantaneous potential energy of the IDBG particle in the 3D space [UNITS=eV]
The discrete variables I,J,K run in the following way:
- I=MINX,....,MAXX % nodes in the X axes (RED)
- J=MINY,...MAXY % nodes in the Y axes (GREEN)
- K=MINZ,....,MAXZ % nodes in the Z axes (BLUE)
- POT(I,J,K),.....,POWQUA(I,J,K)
- END
- END
- K=MINZ,....,MAXZ % nodes in the Z axes (BLUE)
- END
- J=MINY,...MAXY % nodes in the Y axes (GREEN)
The values MINX,MAXX,MINY,MAXY,MINZ,MAXZ are indicated in the properties of the file "my_input_file.txt".
3. 2.- File Name :
- XAXIS.TXT
3.0.1. 2.- Data:
Column |
1 |
variable |
CX(I) |
3.0.2. 2.- Observations:
The discrete variable I runs from the spatial cordinantes of the I=MINX,....,MAXX nodes in the X axes (RED) indicated in the properties of the file "my_input_file.txt".
4. 3.- File Name :
- YAXIS.TXT
4.0.1. 3.- Data:
Column |
1 |
variable |
CY(J) |
4.0.2. 3.- Observations:
The discrete variable J runs from the spatial coordinates of the J=MINY,...MAXY nodes in the Y axes (GREEN) indicated in the properties of the file "my_input_file.txt".
5. 4.- File Name :
- ZAXIS.TXT
5.0.1. 4.- Data:
Column |
1 |
variable |
CZ(K) |
5.0.2. 4.- Observations:
The discrete variable K runs from the spatial cordinantes of the K=MINZ,....,MAXZ nodes in the Z axes (BLUE) indicated in the properties of the file "my_input_file.txt".