Permanent-Magnet Dipole for MiniBoone Original version from the 1987 User's Guide, Chapter 10.5 08-30-01 simple dipole 2 pole bricks 2 sides bricks ; Copyright 1998, by the University of California. ; Unauthorized commercial use is prohibited. ® kprob=0, ; Defines a POISSON or PANDIRA problem dx=0.3,dy=0.3, ; Mesh size conv = 2.54, ; inches nbslo = 0, ; Dirchelt boundary condtion at bottom xmin=-10.0,xmax=10.0, ; Limits of X coordinates ymin=-10.0,ymax=10.0, ; Limits of Y coordinates lmin = 10 ,ltop = 30, ; limits on where to calculate fields for outpan ktype = 2, ; symmetry midplane for this nterm = 11, ; number of harmonics terms nptc = 1440, ; number of arc points rint = 1.27, ; radius to calculate harmonics angle = 360.0, ; angle to calculate harmonics mode=0 & ; Materials have variable permeability &po x=-10.0,y=-10.0 & ;entire universe &po x= 10.0,y=-10.0 & &po x= 10.0,y= 10.0 & &po x=-10.0,y= 10.0 & &po x=-10.0,y=-10.0 & ® mat=2 & ; top flux return &po x= -6.25, y= 7.00 & &po x= 6.25, y= 7.00 & &po x= 6.25, y= 8.00 & &po x= -6.25, y= 8.00 & &po x= -6.25, y= 7.00 & ® mat=2 & ; bottom flux return &po x= -6.25, y= -7.00 & &po x= 6.25, y= -7.00 & &po x= 6.25, y= -8.00 & &po x= -6.25, y= -8.00 & &po x= -6.25, y= -7.00 & ® mat=2 & ; RHS flux return &po x= 5.25, y= -7.00 & &po x= 6.25, y= -7.00 & &po x= 6.25, y= 7.00 & &po x= 5.25, y= 7.00 & &po x= 5.25, y= -7.00 & ® mat=2 & ; LHS flux return &po x= -5.25, y= -7.00 & &po x= -6.25, y= -7.00 & &po x= -6.25, y= 7.00 & &po x= -5.25, y= 7.00 & &po x= -5.25, y= -7.00 & ® mat=2 & ; top pole &po x=-3.25, y= 0.50 & &po x= 3.25, y= 0.50 & &po x= 3.25, y= 5.00 & &po x=-3.25, y= 5.00 & &po x=-3.25, y= 0.50 & ® mat=2 & ; bottom pole &po x=-3.25, y= -0.50 & &po x= 3.25, y= -0.50 & &po x= 3.25, y= -5.00 & &po x=-3.25, y= -5.00 & &po x=-3.25, y= -0.50 & ;!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ;turn this section off ;® mat=2 & ; RHS shorting steel in gap ;&po x = 3.00, y = 0.50 & ;&po x = 2.50, y = 0.50 & ;&po x = 2.50, y = -0.50 & ;&po x = 3.00, y = -0.50 & ;&po x = 3.00, y = 0.50 & ;® mat=2 & ; LHS shorting steel ;&po x = -3.00, y = 0.50 & ;&po x = -2.50, y = 0.50 & ;&po x = -2.50, y = -0.50 & ;&po x = -3.00, y = -0.50 & ;&po x = -3.00, y = 0.50 & ;!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ® mat=7,mshape=1,mtid=2 & ;Top Brick field pointing up &po x=-3.00,y= 5.00 & &po x= 3.00,y= 5.00 & &po x= 3.00,y= 7.00 & &po x=-3.00,y= 7.00 & &po x=-3.00,y= 5.00 & ® mat=7,mshape=1,mtid=2 & ;bottom Brick field pointing up &po x=-3.00,y= -5.00 & &po x= 3.00,y= -5.00 & &po x= 3.00,y= -7.00 & &po x=-3.00,y= -7.00 & &po x=-3.00,y= -5.00 & ® mat=8,mshape=1,mtid=4 & ; RHS Upper bricks &po x = 3.25, y = 0.50 & &po x = 5.25, y = 0.50 & &po x = 5.25, y = 4.50 & &po x = 3.25, y = 4.50 & &po x = 3.25, y = 0.50 & ® mat=9,mshape=1,mtid=6 & ; LHS Upper bricks &po x = -3.25, y = 0.50 & &po x = -5.25, y = 0.50 & &po x = -5.25, y = 4.50 & &po x = -3.25, y = 4.50 & &po x = -3.25, y = 0.50 & ® mat=9,mshape=1,mtid=4 & ; RHS Lower bricks &po x = 3.25, y = -0.50 & &po x = 5.25, y = -0.50 & &po x = 5.25, y = -4.50 & &po x = 3.25, y = -4.50 & &po x = 3.25, y = -0.50 & ® mat=8,mshape=1,mtid=6 & ; LHS Lower bricks &po x = -3.25, y = -0.50 & &po x = -5.25, y = -0.50 & &po x = -5.25, y = -4.50 & &po x = -3.25, y = -4.50 & &po x = -3.25, y = -0.50 & ;;;:::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: &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= 90,gamper=1,hcept=-3115,bcept=3382. & ; Sr Ferrite comp &mt mtid=4,aeasy=180,gamper=1,hcept=-3115,bcept=3382. & ; Sr Ferrite comp &mt mtid=6,aeasy= 0,gamper=1,hcept=-3115,bcept=3382. & ; Sr Ferrite comp &mt mtid=8,aeasy=270,gamper=1,hcept=-3115,bcept=3382. & ; Sr Ferrite comp