4.2.3.5. Flag:
NEUTRALITY
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).
1.- File name:
NEUTRALITY1000*.TXT
1.- Data:
Column |
1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
9 |
10 |
11 |
12 |
13 |
14 |
15 |
16 |
17 |
variable |
Time |
VOLT4 |
VOLT1 |
E_4OLD |
E_1OLD |
RHO_4 |
RHO_1 |
E_4BORDER |
4_1BORDER |
FERMI4 |
FERMI1 |
L_4DEBYE |
L_1DEBYE |
L_4DEPL |
L_1DEPL |
E_4DERIVA |
E_1DERIVA |
1.- Observations:
The variable Time runs from the initial (time equal to zero) till the final time as indictated in the properties of "my_input_file.txt" (or till the time where the file is downloaded).
VOLT4=Surface average of the scalar potential in surface 4
VOLT1=Surface average of the scalar potential in surface 1
E_4OLD=Surface average of the electric field in surface 4
E_1OLD=Surface average of the electric field in surface 1
RHO_4=Surface average of the charge density in surface 4
RHO_1=Surface average of the charge density in surface 4
E_4BORDER=electric field at the end of the analytical part adeed to surface 4
4_1BORDER=electric field at the end of the analytical part added to surface 4
FERMI4=Fermi level for injecting from surface 4
FERMI1=fermi level for injecting from surface 1
L_4DEBYE=Debye length used in surface 4
L_1DEBYE=Debye length used in surface 1
L_4DEPL=Depletion length used in surface 4
L_1DEPL=Depletion length used in surface 1
E_4DERIVA=Electric field from Ohms at the end of the analytical part adeed to surface 4
E_1DERIVA=Electric field from Ohms at the end of the analytical part adeed to surface 1
See more inoformation about the utility of this files in: