Permanent-Magnet Dipole (for PANDIRA)  
Original version from the 1987 User's Guide, Chapter 10.5
6-29-99 simple panowski quad
12-18-00 panowski quad for fixing lamberston skew moment

; Copyright 1998, by the University of California. 
; Unauthorized commercial use is prohibited. 

&reg kprob=0,                   ; Defines a POISSON or PANDIRA problem
dx=0.1,dy=0.1,                  ; Mesh size
conv = 2.54,			; inches
nbslo = 0,			; Dirchelt boundary condtion at bottom
xmin=-4.0,xmax=4.0,           ; Limits of X coordinates
ymin=-4.0,ymax=4.0,           ; Limits of Y coordinates
lmin = 10 ,ltop = 30,		; limits on where to calculate fields for outpan
ktype = 1,			; symmetry midplane for this
nterm = 11,			; number of harmonics terms
nptc  = 1440,			; number of arc points 
rint  = 0.8,			; radius to calculate harmonics
angle = 360.0,			; angle to calculate harmonics
mode=0   &                      ; Materials have variable permeability

&po x=-4.0,y=-4.0 &      	;entire universe
&po x= 4.0,y=-4.0 &
&po x= 4.0,y= 4.0 &
&po x=-4.0,y= 4.0 &
&po x=-4.0,y=-4.0 &

&reg mat=2 &     		; top flux return
&po x =  -3.000, y =  0.0000 &
&po x =  -3.250, y =  0.0000 &
&po x =  -3.250, y =  1.1800 &
&po x =  -2.180, y =  2.2500 &
&po x =   2.180, y =  2.2500 &
&po x =   3.250, y =  1.1800 &
&po x =   3.250, y =  0.0000 &
&po x =   3.000, y =  0.0000 &
&po x =   3.000, y =  1.0000 &
&po x =   2.000, y =  2.0000 &
&po x =  -2.000, y =  2.0000 &
&po x =  -3.000, y =  1.0000 &
&po x =  -3.000, y =  0.0000 &

&reg mat=2 &     		; bottom flux return
&po x =  -3.000, y =  0.0000 &
&po x =  -3.250, y =  0.0000 &
&po x =  -3.250, y = -1.1800 &
&po x =  -2.180, y = -2.2500 &
&po x =   2.180, y = -2.2500 &
&po x =   3.250, y = -1.1800 &
&po x =   3.250, y =  0.0000 &
&po x =   3.000, y =  0.0000 &
&po x =   3.000, y = -1.0000 &
&po x =   2.000, y = -2.0000 &
&po x =  -2.000, y = -2.0000 &
&po x =  -3.000, y = -1.0000 &
&po x =  -3.000, y =  0.0000 &

&reg mat=10,mshape=1,mtid=8 &  		 ; LHS Brick field pointing out                       	;  POLE
&po x =  -2.000, y =  1.000 &
&po x =  -2.000, y = -1.000 &
&po x =  -3.000, y = -1.000 &
&po x =  -3.000, y =  1.000 &
&po x =  -2.000, y =  1.000 &

&reg mat=7,mshape=1,mtid=2 &  		 ;top Brick field pointing in                       	;  POLE
&po x=   2.000, y =  1.000 &
&po x=   2.000, y =  2.000 &
&po x=  -2.000, y =  2.000 &
&po x=  -2.000, y =  1.000 &
&po x=   2.000, y =  1.000 &

&reg mat=9,mshape=1,mtid=6 &  		 ; RHS Brick field pointing out                       	;  POLE
&po x =  2.000, y =  1.000 &
&po x =  2.000, y = -1.000 &
&po x =  3.000, y = -1.000 &
&po x =  3.000, y =  1.000 &
&po x =  2.000, y =  1.000 &


&reg mat=8,mshape=1,mtid=4 &  		 ;bottom Brick field pointing in                       	;  POLE
&po x=   2.000, y = -1.000 &
&po x=   2.000, y = -2.000 &
&po x=  -2.000, y = -2.000 &
&po x=  -2.000, y = -1.000 &
&po x=   2.000, y = -1.000 &

&mt mtid=1,aeasy=90,gamper=1  ; Material ID, Easy axis direction, Gamma along hard axis
hcept=-3500,bcept=3800. &   ; H and B intercepts   
&mt mtid=2,aeasy= 270,gamper=1,hcept=-3500,bcept=3800. & ; Sr Ferrite  comp
&mt mtid=4,aeasy=  90,gamper=1,hcept=-3500,bcept=3800. & ; Sr Ferrite  comp
&mt mtid=6,aeasy=   0,gamper=1,hcept=-3500,bcept=3800. & ; Sr Ferrite  comp
&mt mtid=8,aeasy= 180,gamper=1,hcept=-3500,bcept=3800. & ; Sr Ferrite  comp