Message: outp=p4.o  runtpe=p4.r  mctal=p4.m wwout=wwout

Neutron and Photon TLD Response on an ISO slab phantom
c Beginning of Cell Cards
c
c TLDs
   1   4   -2.54   5 -6 23 -24 37 -38 imp:p,e 7 $ Li-6F; chip 1; top left
   2   5   -2.64   7 -8 23 -24 37 -38 imp:p,e 7 $ Li-7F; chip 2; top right 
   3   4   -2.54   5 -6 19 -20 37 -38 imp:p,e 7 $ Li-6F; chip 3; bottom left
   4   5   -2.64   7 -8 19 -20 37 -38 imp:p,e 7 $ Li-7F; chip 4; bottom right
c
c water phantom
c                 Cell 10 is the PMMA cube
  10   1   -1.19   (1 -2 15 -28 40 -42):(11 -12 15 -28 40 -42)
                  :(15 -16 1 -12 40 -42):(27 -28 1 -12 40 -42)
                  :(39 -40 1 -12 15 -28):(41 -42 1 -12 15 -28)  imp:p,e 1 
  11   3   -1.00   2 -11 16 -27 40 -41   imp:p,e 1 $ water inside ISO phantom
c
c Al plate
  20   2   -2.70   (4 -9 18 -19 37 -38):(4 -9 24 -25 37 -38)
                  :(4 -5 18 -25 37 -38):(8 -9 18 -25 37 -38)
                  :(6 -7 18 -25 37 -38):(20 -23 4 -9 37 -38)  imp:p,e 5 
c
c Al disks
  25   2   -2.70   -52 36 -37  imp:p,e 30   $ in front of chip 3
  26   2   -2.70   -53 36 -37  imp:p,e 30   $ in front of chip 4
c
c vacuum disks
  30   0           -52 38 -39  imp:p,e 7 $ behind chip 3
  31   0           -53 38 -39  imp:p,e 7 $ behind chip 4
c
c holder
  35   6   -1.19   3 -10 38 -39 52 53 17 -26   imp:p,e 9 $ back with holes
  36   6   -1.19   (3 -4 17 -26 37 -38):(9 -10 17 -26 37 -38)
                  :(3 -10 25 -26 37 -38):(3 -10 17 -18 37 -38)   imp:p,e 10
  37   6   -1.19   3 -10 17 -26 36 -37 50 51 52 53   imp:p,e 9
  38   6   -1.19   3 -10 17 -26 35 -36 50 51     imp:p,e 7
c
c source
  50   0           1 -12 15 -28 100 -101  imp:p,e 1
c
c outside of problem
  99   0   (-50 -37 101 -200):(-51 -37 101 -200):(-35 3 -10 17 -26 101 -200):
           (-3 -39 101 -200):(10 -39 101 -200):(-17 -39 101 -200):
           (26 -39 101 -200):((42:-1:12:-15:28:-100) -200)   imp:p,e 2
 999   0   200   imp:p,e 0
c
c End of Cell Cards

c Beginning of Surface Cards
c
   1   px   -15     $ edge of water phantom; edge of PMMA
   2   px   -14     $ edge of PMMA; edge of water
   3   px   -1.75   $ edge of TLD; edge of polyethylene
   4   px   -1.25   $ edge of polyethylene; edge of Al
   5   px   -0.91   $ left edge of chips 1 and 3
   6   px   -0.59   $ right edge of chips 1 and 3
   7   px    0.59   $ left edge of chips 2 and 4
   8   px    0.91   $ right edge of chips 2 and 4
   9   px   1.25    $ edge of Al; edge of polyethylene
  10   px   1.75    $ edge of polyethylene; edge of TLD
  11   px    14     $ edge of water; edge of PMMA
  12   px    15     $ edge of PMMA; edge of water phantom
c
  15   py   -15     $ edge of water phantom; edge of PMMA
  16   py   -14     $ edge of PMMA; edge of water
  17   py   -2.75   $ edge of TLD; edge of polyethylene
  18   py   -2.25   $ edge of polyethylene; edge of Al
  19   py   -1.91   $ edge of Al; bottom edge of chips 3 and 4
  20   py   -1.59   $ top edge of chips 3 and 4; edge of Al
c  21   py   -1.25   $ edge of Al
c  22   py    1.25   $ edge of Al
  23   py    1.59   $ edge of Al; bottom edge of chips 1 and 2
  24   py    1.91   $ top edge of chips 1 and 2; edge of Al
  25   py    2.25   $ edge of Al; edge of polyethylene
  26   py    2.75   $ edge of polyethylene; edge of TLD
  27   py    14     $ edge of water; edge of PMMA
  28   py    15     $ edge of PMMA; edge of water phantom
c
  35   pz   -0.79   $ front edge of TLD; edge of polyethylene
  36   pz   -0.3    $ edge of polyethylene; edge of Al disk
  37   pz   -0.29   $ edge of Al disk; front edge LiF
  38   pz   -0.20   $ edge of LiF; edge of vacuum or polyethylene
  39   pz     0     $ back edge of TLD; edge of water phantom
  40   pz    0.25   $ edge of PMMA; edge of water
  41   pz    14     $ edge of water; edge of PMMA
  42   pz    15     $ edge of PMMA; back edge of water phantom
c
  50   c/z   -0.75  1.75 0.5    $ 1cm diameter hole centered on chip 1
  51   c/z    0.75  1.75 0.5    $ 1cm diameter hole centered on chip 2
  52   c/z   -0.75 -1.75 0.5    $ 1cm diameter hole centered on chip 3
  53   c/z    0.75 -1.75 0.5    $ 1cm diameter hole centered on chip 4
c
c source providing neutrons and photons at normal incidence
 100   pz   -11
 101   pz   -10
c
c surfaces to define the outside universe
 200   so   30
c
c End of Surface Cards

c Beginning of Data Cards
c
c mode p e
mode p
c
print
c prdmp 2j 1
c
ctme 50000
phys:p 100 0 0
c phys:e 50 0 0 0 0 0 
c
c Source Definition
c Plane source with direction normal to surface
c sdef  sur=101 nrm=1 dir=-1 erg=1.25 par 2
sdef x=d1 y=d2 z=-10 sur=101 nrm=1 vec=0 0 -1 dir=-1 erg=1.25 par 2
si1  -15  -2 -.1  .1   2   15
sp1  0   1    1    1   1    1
sb1  0   1   20    1  20    1
si2  -15  -2.5  -.75  .75   2.5   15
sp2 0   1       1     1      1      1
sb2 0   1      20     1     20      1
c
c Cell importances
c
c imp:e 1 15r 1 0
c imp:p 1 15r 1 0
c
c Weight Window Generator
 wwp:p 5 2 5 0 0.25
 wwg 6 0 0 
 mesh geom=xyz ref=0 0 0 origin= -30 -30 -30
       imesh -2.0 2 30 iints 4 10 4
       jmesh -7 -3 3 7 30 jints 4 10 15 10 4
       kmesh -2 4 13 30  kints 4 10 7 4
c Tallies
c
 fc6 Energy deposition (MeV/g) per source photon)
      f6 tallies are the cylindrical/radial dose depth
 f6:p  1 2 3 4 T
 fm6   1.6e-10      $ convert MeV/g to Gy
 f16:p 1
 f16m  1.6e-10      $ convert MeV/g to Gy
c
c f16c f16 tallies are for the wedges
c f16:p  20 16i 37
c fm16   1.6e-10     $ convert MeV/g to Gy
c
c fc8 Total energy deposition (MeV) in each of the 
c      f8 tallies are the cylindrical/radial dose depth
c *f8:p,e 15 3i 19
c
c fc18 f18 tallies are for the wedges
c *f18:p,e   20 16i 37
c
c Beginning of Material Data Cards
c
c PMMA
c rho = 1.19 g/cc
m1    001001 -0.0805259   001002 -0.0000120807   $ naturally occurring H
      008016 -0.318853    008017 -0.000121453   008018 -0.000639228 $nat. O
      006012 -0.593190    006013 -0.00665831     $ naturally occurring C
c
c Aluminum
c rho = 2.70 g/cc
m2    013027 1
c
c Water
c rho = 1.00 g/cc
m3    001001 -0.111877   001002 -0.0000167841    $ naturally occurring H
      008016 -0.885992   008017 -0.000337480   008018 -0.00177621 $ nat. O
c
c Li-6F
c rho = 2.54 g/cc
m4    003006 -0.229      003007 -0.012      009000 -0.758
c
c Li-7F
c rho = 2.64 g/cc
m5    003006 -0.00016    003007 -0.270      009000 -0.730
c
c Holder
c rho = 1.19 g/cc
m6    001001 -0.079988   001002 -0.000012        $ naturally occurring H
      006012 -0.6279515   006013 -0.0070485      $ naturally occurring C
      005010 -0.056914   005011 -0.229086        $ naturally occurring B


      


