4.2.3.1. Flag:

RAMOPOTEN

1.- File Name :

RAMO3D.TXT

1.- Data:

Column	1	2	3	4	5	6
variable	FLAPLACE(1,I,J,K)	FLAPLACE(2,I,J,K)	FLAPLACE(3,I,J,K)	FLAPLACE(4,I,J,K)	FLAPLACE(5,I,J,K)	FLAPLACE(6,I,J,K)

1.- Observations:

The FLAPLACE is the scalar potenital associated to the Ramo-Shockley-Pellegrini theorem. See more information in the article below.

A. Alarcón and '''X.Oriols''' “Computation of quantum electron transport with local current conservation using quantum trajectories,” Journal of Statistical Mechanics: Theory and Experiment 2009, P01051 (2009)

The faces are indicated in the figure below.

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)
    - FLAPLACE(1,I,J,K),......,FLAPLACE(1,I,J,K)
    - END
  - END
- END

The values MINX,MAXX,MINY,MAXY,MINZ,MAXZ are indicated in the properties of the file "my_input_file.txt".

2.- File Name :

RAMOXAXIS.TXT

2.- Data:

Column	1
variable	CX(K)

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".

3.- File Name :

RAMOYAXIS.TXT

3.- Data:

Column	1
variable	CY(J)

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".

4.- File Name :

RAMOZAXIS.TXT

4.- Data:

Column	1
variable	CZ(K)

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".