gpamela/gpgar/xcelldata.inc

*
* $Id$
*
* $Log$
*
*
* xcelldata.inc
*
*CMZ :  3.00/00 02/05/2001  20.42.25  by  Unknown
*-- Author :
*-----------------------------------------------------------------------
*   CELDAT - Common block containing all information on the cell, such
*   CELCHR   as the wire data, planes, constants etc.
*   VARIABLES : X(I),Y(I)  : Position of wire I [cm].
*               WMAP(I)    : Mapped wire positions [cm].
*               D(I)       : Diameter of wire I [cm].
*               E(I),V(I)  : Charge on wire i, potential of wire I.
*               W(I)       : Stretching weight of the wire [grams].
*               U(I)       : Length of the wire [cm].
*               DENS(I)    : Density of the wire [g/cm3].
*               WIRTYP(I)  : Type of wire of wire I.
*               NWIRE      : Number of wires present in the cell.
*               N3D        : Number of three-dimensional charges.
*               X3D,Y3D,Z3D: Positions of the three-dimensional charges.
*               E3D        : Charge of the three-dimensional charges.
*               NTERMB/D   : Number of terms for 3D B2 potentials.
*               XMIN, XMAX : x-range of the cell comsidered [cm].
*               YMIN, YMAX : y-range of the cell considered [cm].
*               ZMIN, ZMAX : z-range of the cell considered [cm].
*               YNPLAN(I)  : Plane I exist if .TRUE.
*               COPLAN(I)  : Relevant coordinate of plane I
*               VTPLAN(I)  : Potential of plane I.
*               PLATYP(I)  : Label of plane I.
*               YNPLAX,YNPLAY: Yes/no plane in x or y (reduce CPU time).
*               COPLAX,COPLAY: Coordinates of planes  (reduce CPU time).
*               INDPLA     : Conductor group number for plane I,
*                            the tube has number 5.
*               PLSTR1(I,J,K): x/y-strip J for plane I, K=1: lower
*                            limit, K=2: upper limit, K=3: gap.
*               PLSTR2(I,J,K): z-strip J for plane I, K=1: lower limit,
*                            K=2: upper limit, K=3: gap.
*               PSLAB1/2   : Labels of strips.
*               NPSTR1/2(I): Number of x/y and z strips in plane I.
*               INDST1/2   : Conductor group numbers for strips.
*               XMATT(I,.) : x-start, x-end, eps of x-dielectricum I.
*               YMATT(I,.) : y-start, y-end, eps of y-dielectricum I.
*               NXMATT     : Number of x-dielectrica.
*               NYMATT     : Number of y-dielectrica.
*               V0         : Voltage added to obtain: sum charges =0.
*               PERX/Y/Z   : Yes/no x, y, z periodicity.
*               PERMX/Y/Z  : Yes/no x, y, z mirror periodicity.
*               PERAX/Y/Z  : Yes/no x, y, z axial periodicity.
*               PERRX/Y/Z  : Yes/no x, y, z rotation symmetry
*               TYPE       : Cell type.
*               ICTYPE     : Integer cell type (is more efficient).
*               SX, SY, SZ : Periodicity in x, y, z (if relevant).
*               INDSW(I)   : Gives the sense wire number for wire I.
*               NSW        : Number of sense wires.
*               YNMATX,YNMATY: Yes/no dielectricum in x or y (idem).
*               COMATX,COMATY: Coordinates of dielectricum   (idem).
*               B2SIN      : Vector of sinuses for B2 (reduce CPU time).
*               CORVTA,B,C : CORVTA*X + CORVTB*Y + CORVTC =
*                            potential due to the planes only.
*               VMIN,VNAX  : Range of voltages in the cell.
*               DOWN       : Chamber orientation
*               POLAR      : The cell has cylindrical/polar symmetry.
*               TUBE       : Geometry with wires inside a tube.
*               VTTUBE     : Voltage of the tube.
*               COTUBE     : Radius of the tube.
*               NTUBE      : Number of edges of the tube.
*               MTUBE      : Periodicity in the tube.
*               KAPPA      : Constant used for mappings.
*               CNALSO     : Flag to select only mirror images of a wire
*               IENBGF     : Entry for the background field.
*               LBGFMP     : Background field uses field map.
*   (Last changed on  5/12/00.)
*-----------------------------------------------------------------------
1	cafagna	3.1	*
2			* $Id$
3			*
4			* $Log$
5			*
6			*
7			* xcelldata.inc
8			*
9			*CMZ : 3.00/00 02/05/2001 20.42.25 by Unknown
10			*-- Author :
11			*-----------------------------------------------------------------------
12			* CELDAT - Common block containing all information on the cell, such
13			* CELCHR as the wire data, planes, constants etc.
14			* VARIABLES : X(I),Y(I) : Position of wire I [cm].
15			* WMAP(I) : Mapped wire positions [cm].
16			* D(I) : Diameter of wire I [cm].
17			* E(I),V(I) : Charge on wire i, potential of wire I.
18			* W(I) : Stretching weight of the wire [grams].
19			* U(I) : Length of the wire [cm].
20			* DENS(I) : Density of the wire [g/cm3].
21			* WIRTYP(I) : Type of wire of wire I.
22			* NWIRE : Number of wires present in the cell.
23			* N3D : Number of three-dimensional charges.
24			* X3D,Y3D,Z3D: Positions of the three-dimensional charges.
25			* E3D : Charge of the three-dimensional charges.
26			* NTERMB/D : Number of terms for 3D B2 potentials.
27			* XMIN, XMAX : x-range of the cell comsidered [cm].
28			* YMIN, YMAX : y-range of the cell considered [cm].
29			* ZMIN, ZMAX : z-range of the cell considered [cm].
30			* YNPLAN(I) : Plane I exist if .TRUE.
31			* COPLAN(I) : Relevant coordinate of plane I
32			* VTPLAN(I) : Potential of plane I.
33			* PLATYP(I) : Label of plane I.
34			* YNPLAX,YNPLAY: Yes/no plane in x or y (reduce CPU time).
35			* COPLAX,COPLAY: Coordinates of planes (reduce CPU time).
36			* INDPLA : Conductor group number for plane I,
37			* the tube has number 5.
38			* PLSTR1(I,J,K): x/y-strip J for plane I, K=1: lower
39			* limit, K=2: upper limit, K=3: gap.
40			* PLSTR2(I,J,K): z-strip J for plane I, K=1: lower limit,
41			* K=2: upper limit, K=3: gap.
42			* PSLAB1/2 : Labels of strips.
43			* NPSTR1/2(I): Number of x/y and z strips in plane I.
44			* INDST1/2 : Conductor group numbers for strips.
45			* XMATT(I,.) : x-start, x-end, eps of x-dielectricum I.
46			* YMATT(I,.) : y-start, y-end, eps of y-dielectricum I.
47			* NXMATT : Number of x-dielectrica.
48			* NYMATT : Number of y-dielectrica.
49			* V0 : Voltage added to obtain: sum charges =0.
50			* PERX/Y/Z : Yes/no x, y, z periodicity.
51			* PERMX/Y/Z : Yes/no x, y, z mirror periodicity.
52			* PERAX/Y/Z : Yes/no x, y, z axial periodicity.
53			* PERRX/Y/Z : Yes/no x, y, z rotation symmetry
54			* TYPE : Cell type.
55			* ICTYPE : Integer cell type (is more efficient).
56			* SX, SY, SZ : Periodicity in x, y, z (if relevant).
57			* INDSW(I) : Gives the sense wire number for wire I.
58			* NSW : Number of sense wires.
59			* YNMATX,YNMATY: Yes/no dielectricum in x or y (idem).
60			* COMATX,COMATY: Coordinates of dielectricum (idem).
61			* B2SIN : Vector of sinuses for B2 (reduce CPU time).
62			* CORVTA,B,C : CORVTAX + CORVTBY + CORVTC =
63			* potential due to the planes only.
64			* VMIN,VNAX : Range of voltages in the cell.
65			* DOWN : Chamber orientation
66			* POLAR : The cell has cylindrical/polar symmetry.
67			* TUBE : Geometry with wires inside a tube.
68			* VTTUBE : Voltage of the tube.
69			* COTUBE : Radius of the tube.
70			* NTUBE : Number of edges of the tube.
71			* MTUBE : Periodicity in the tube.
72			* KAPPA : Constant used for mappings.
73			* CNALSO : Flag to select only mirror images of a wire
74			* IENBGF : Entry for the background field.
75			* LBGFMP : Background field uses field map.
76			* (Last changed on 5/12/00.)
77			*-----------------------------------------------------------------------