4.2.3.7. Flag:
TRAJECTORY
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:
TRAJECTORY1000*.TXT
1.- Data:
A.For quant. particle
Column |
1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
9 |
10 |
11 |
12 |
13 |
14 |
15 |
16 |
17 |
18 |
variable |
Time |
X |
Y |
Z |
VX |
VY |
VZ |
AX |
AY |
AZ |
KX |
KY |
KZ |
VOLTELECT |
VOLTOLD |
NS4 |
NS1 |
NT |
B.For class. particle
Column |
1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
9 |
10 |
11 |
12 |
13 |
14 |
15 |
variable |
Time |
X |
Y |
Z |
VX |
VY |
VZ |
AX |
AY |
AZ |
KX |
KY |
KZ |
VOLTELECT |
VOLTOLD |
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).
During each simulation step time one particle IDBG is checked from its entering time till its leaving time. Then, a different IDBG particle is checked and so on.
X=Position of the IDBG particle along the X axes.
Y=Position of the IDBG particle along the Y axes.
Z=Position of the IDBG particle along the Z axes.
VX=Velocity of the IDBG particle along the X axes.
VY=Velocity of the IDBG particle along the Y axes.
VZ=Velocity of the IDBG particle along the Z axes.
AX=Acceleration of the IDBG particle along the X axes.
AY=Acceleration of the IDBG particle along the Y axes.
AZ=Acceleration of the IDBG particle along the Z axes.
KX=Linear momentum of the IDBG particle along the X axes.
KY=Linear momentum of the IDBG particle along the Y axes.
KZ=Linear momentum of the IDBG particle along the Z axes.
VOLTELECT=Scalar potential at the position of the particle IDBG (When the MANYCOULOMB FLAG is not activated it writes the MEAN FIELD value).
VOLTOLD=It is the VOLTELECT at the previous simulation time (useful to compute displacement currents).
NS4=Value of the modulus of the wavefunction of IDBG at the begining of the simulation region (useful to check spurios reflection with the borders of the simulation region).
NS1=Value of the modulus of the wavefunction of IDBG at the end of the simulation region (useful to check spurios reflection with the borders of the simulation region).
NT=Total norm of the wavefucntion IDBG (Its value has to be 1 when only real potentials are useful).