IPLQ 544 // Plaque Simulator isotope physics, version
// file names should follow the convention: localname.iphys (localname<=25 chars)
// this is a simple tab delimited text file
// each data line begins with a 4 char key followed by a <tab> and ends with a <cr>
// each key is followed by one or more data fields and an optional comment field
// the basic format is: <key><tab><value><tab><comment><cr>
// you can freely edit values & comments on each line but do NOT change the keys
uniq IAAI // unique 4 char ID for this isotope <FourCharCode>
name IsoAid Advantage // trade name (<=31 chars)
menu I-125 (IAI-125A) // local name, how this isotope is listed in menus (<=25 chars)
cmnt from IsoAid techdata sheet // user comment (<=63 chars)
vari 125 // isotope variant or model number (numeric only) <integer>
clas 1 // isotope class, 1=I125, 2=Ir192, 3=Pd103, 4=Ru106, 5=Sr90, 6=Au198, 7=Co60 <integer>
dkty 1 // radiation type, 1=gamma, 2=beta <integer>
unit 1 // units, 1=mCi, 2=Sk, 3=mgRaEq, 4=MBq <integer>
geom 2 // isotope geometry, 0=point, 1=line, 2=inline beads, 3=cylindrical <integer>
bead 3 // # of inline beads <integer>
mask 5 // bead type bitmask, 0=srce, 1=marker <integer>
bgeo 7 // bead geometry bitmask, 0=sphere, 1=cylinder <integer>
bcap 7 // bead cap bitmask, 0=solid, 1=hollow <integer>
diam 0.5 // bead diameter (mm) <float>
blen 2 // bead length (mm) <float>
mdia 0.5 // marker diameter (mm) <float>
mlen 0.5 // marker length (mm) <float>
metl 1 // marker metal, 1=silver, 2=gold, 3=platinum, 4=titanium, 5=steel, 6=lead <integer>
red_ 512 // isotope color, red intensity 0..65535 <integer>
gren 61439 // isotope color, green intensity 0..65535 <integer>
blue 61439 // isotope color, blue intensity 0..65535 <integer>
sred 49087 // shell color, red intensity 0..65535 <integer>
sgre 49087 // shell color, green intensity 0..65535 <integer>
sblu 49087 // shell color, blue intensity 0..65535 <integer>
half 59.4 // halflife in days <float>
alen 3 // active source length (mm) <float>
plen 4.5 // physical seed length (mm) <float>
prad 0.4 // physical seed radius (mm) <float>
drc1 0.981 // dose rateconstant, cGy/U-hr @ 1 cm in water, or Emax (MeV) for beta dosimetry<float>
tisu 1 // water to medium (tissue, RW-1, PMMA, etcƒ) conversion factor <float>
a2Sk 1.27 // apparent activity to air kerma strength conversion factor (U/mCi), must be 1.0 for beta dosimetry <float>
beav 1.45 // parameter n¤Eav (MeV), or Eav of beta spectrum (or exp rate const (R cm^2/mCi-h) for gammas) <float>
b90_ 0 // parameter Rmax (mg/cm2), or 90% distance (mm) for beta dosimetry<float>
bnb_ 0 // parameter v (1/cm), or nB for beta dosimetry <float>
bkb_ 0 // parameter k for beta dosimetry <float>
bc__ 0 // parameter C for beta dosimetry <float>
br__ 0 // parameter R for beta dosimetry <float>
bemx 0 // parameter Emax for beta dosimetry <float>
bbu_ 0 // parameter bu for beta dosimetry <float>
tran 0 // default estimate of transmission through a plaque shell for this isotope <float>
air1 0.85 // default correction air interface <float>
air2 0.1 // default correction air interface <float>
//
// ********** g(r) line radial dose function ***********
//
// coefs a0..a5 as in TG43, r for beta point kernel, or carrier T factors
gra0 1.05490005 // a0 v <float>
gra1 0.058111001 // a1 C <float>
gra2 -0.150480002 // a2 R <float>
gra3 0.037413001 // a3 k <float>
gra4 -0.0037008 // a4 bu <float>
gra5 0.00013103 // a5 <float>
grxt 0 // lookup table, 0=interpolate from table, 1=use coefs <integer>
grsm 1 // smooth, 0=no, 1=yes <integer>
grrg 40 // moving avg range <integer>
gr#p 20 // MUST be 20, # of points in table <integer>
// data table format: <key><tab><index><tab><distance(mm)><tab><value><cr>
grp# 0 0 1.04
grp# 1 1 1.04
grp# 2 1.5 1.053
grp# 3 2 1.0595
grp# 4 2.5 1.066
grp# 5 3 1.0688
grp# 6 4 1.0744
grp# 7 5 1.08
grp# 8 6 1.062
grp# 9 7 1.044
grp# 10 8 1.028
grp# 11 9 1.014
grp# 12 10 1
grp# 13 12 0.9608
grp# 14 14 0.9216
grp# 15 16 0.8816
grp# 16 18 0.8408
grp# 17 20 0.8
grp# 18 30 0.611
grp# 19 40 0.468
//
// ********** g(r) point radial dose function ***********
//
// coefs a0..a5 as in TG43, r for beta point kernel, or carrier T factors
gpa0 1.05490005 // a0 <float>
gpa1 0.058111001 // a1 <float>
gpa2 -0.150480002 // a2 <float>
gpa3 0.037413001 // a3 <float>
gpa4 -0.0037008 // a4 <float>
gpa5 0.00013103 // a5 <float>
gpxt 0 // lookup table, 0=interpolate from table, 1=use coefs <integer>
gpsm 1 // smooth, 0=no, 1=yes <integer>
gprg 40 // moving avg range <integer>
gp#p 20 // MUST be 20, # of points in table <integer>
// data table format: <key><tab><index><tab><distance(mm)><tab><value><cr>
gpp# 0 0 0.686
gpp# 1 1 0.686
gpp# 2 1.5 0.833
gpp# 3 2 0.9
gpp# 4 2.5 0.967
gpp# 5 3 0.9848
gpp# 6 4 1.0204
gpp# 7 5 1.056
gpp# 8 6 1.0452
gpp# 9 7 1.0344
gpp# 10 8 1.0232
gpp# 11 9 1.0116
gpp# 12 10 1
gpp# 13 12 0.9624
gpp# 14 14 0.9248
gpp# 15 16 0.8856
gpp# 16 18 0.8448
gpp# 17 20 0.804
gpp# 18 30 0.615
gpp# 19 40 0.471
//
// *********** F(À) anisotropy data *************
//
fn#d 5 // number of anisotropy curves in use, (a0>0,max=15) <integer>
fna0 1 0.5 2 3 5 0 0 0 0 0 0 0 0 0 0 //radial distance cm<float>
fna1 0.300000012 0.300000012 0.300000012 0.300000012 0.300000012 0 0 0 0 0 0 0 0 0 0 //source length <float>
fna2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //reserved <float>
fna3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //reserved <float>
fna4 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //reserved <float>
fna5 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //reserved <float>
fnxt 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //MUST be 0 <integer>
fnsm 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 //smooth, 0=no, 1=yes <integer>
fnrg 5 5 5 5 5 0 0 0 0 0 0 0 0 0 0 //moving avg range <integer>
fn#p 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 //MUST be 20, # of points in table <integer>
// data table format: <key><tab><index><tab><angle(deg)><tab><value><cr>
fnp# 0 0 0.406 0 0.352 0 0.493 0 0.52 0 0.578 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 1 5 0.465 5 0.411 5 0.545 5 0.584 5 0.658 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 2 10 0.527 10 0.481 10 0.601 10 0.642 10 0.704 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 3 20 0.719 20 0.699 20 0.757 20 0.775 20 0.794 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 4 30 0.846 30 0.848 30 0.862 30 0.862 30 0.869 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 5 40 0.936 40 0.948 40 0.932 40 0.916 40 0.937 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 6 50 0.986 50 1.002 50 0.974 50 0.961 50 0.963 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 7 60 1.024 60 1.029 60 1.008 60 0.993 60 0.99 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 8 70 1.039 70 1.029 70 1.027 70 1.006 70 1.016 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 9 80 1.025 80 0.999 80 1.024 80 1.023 80 1.009 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 10 90 1 90 1 90 1 90 1 90 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 11 90 1 90 1 90 1 90 1 90 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 12 90 1 90 1 90 1 90 1 90 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 13 90 1 90 1 90 1 90 1 90 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 14 90 1 90 1 90 1 90 1 90 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 15 90 1 90 1 90 1 90 1 90 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 16 90 1 90 1 90 1 90 1 90 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 17 90 1 90 1 90 1 90 1 90 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 18 90 1 90 1 90 1 90 1 90 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 //
fnp# 19 90 1 90 1 90 1 90 1 90 1 90 1 90 1 90 1 90 1 90 1 90 1 90 1 90 1 90 1 90 1 //
fÀa0 1 // data distance <float>
fÀa1 0.300000012 // source length <float>
fÀa2 0 // reserved <float>
fÀa3 0 // reserved <float>
fÀa4 0 // reserved <float>
fÀa5 0 // reserved <float>
fÀxt 0 // MUST be 0 <integer>
fÀsm 1 // smooth, 0=no, 1=yes <integer>
fÀrg 5 // moving avg range <integer>
fÀ#p 20 // MUST be 20, # of points in table <integer>
// data table format: <key><tab><index><tab><angle(deg)><tab><value><cr>
fÀp# 0 0 0.406
fÀp# 1 5 0.465
fÀp# 2 10 0.527
fÀp# 3 20 0.719
fÀp# 4 30 0.846
fÀp# 5 40 0.936
fÀp# 6 50 0.986
fÀp# 7 60 1.024
fÀp# 8 70 1.039
fÀp# 9 80 1.025
fÀp# 10 90 1
fÀp# 11 90 1
fÀp# 12 90 1
fÀp# 13 90 1
fÀp# 14 90 1
fÀp# 15 90 1
fÀp# 16 90 1
fÀp# 17 90 1
fÀp# 18 90 1
fÀp# 19 90 1
f5a0 0.5 // data distance <float>
f5a1 0.300000012 // source length <float>
f5a2 0 // reserved <float>
f5a3 0 // reserved <float>
f5a4 0 // reserved <float>
f5a5 0 // reserved <float>
f5xt 0 // MUST be 0 <integer>
f5sm 1 // smooth, 0=no, 1=yes <integer>
f5rg 5 // moving avg range <integer>
f5#p 20 // MUST be 20, # of points in table <integer>
// data table format: <key><tab><index><tab><angle(deg)><tab><value><cr>
f5p# 0 0 0.352
f5p# 1 5 0.411
f5p# 2 10 0.481
f5p# 3 20 0.699
f5p# 4 30 0.848
f5p# 5 40 0.948
f5p# 6 50 1.002
f5p# 7 60 1.029
f5p# 8 70 1.029
f5p# 9 80 0.999
f5p# 10 90 1
f5p# 11 90 1
f5p# 12 90 1
f5p# 13 90 1
f5p# 14 90 1
f5p# 15 90 1
f5p# 16 90 1
f5p# 17 90 1
f5p# 18 90 1
f5p# 19 90 1
f2a0 2 // data distance <float>
f2a1 0.300000012 // source length <float>
f2a2 0 // reserved <float>
f2a3 0 // reserved <float>
f2a4 0 // reserved <float>
f2a5 0 // reserved <float>
f2xt 0 // MUST be 0 <integer>
f2sm 1 // smooth, 0=no, 1=yes <integer>
f2rg 5 // moving avg range <integer>
f2#p 20 // MUST be 20, # of points in table <integer>
// data table format: <key><tab><index><tab><angle(deg)><tab><value><cr>
f2p# 0 0 0.493
f2p# 1 5 0.545
f2p# 2 10 0.601
f2p# 3 20 0.757
f2p# 4 30 0.862
f2p# 5 40 0.932
f2p# 6 50 0.974
f2p# 7 60 1.008
f2p# 8 70 1.027
f2p# 9 80 1.024
f2p# 10 90 1
f2p# 11 90 1
f2p# 12 90 1
f2p# 13 90 1
f2p# 14 90 1
f2p# 15 90 1
f2p# 16 90 1
f2p# 17 90 1
f2p# 18 90 1
f2p# 19 90 1
//
// ******* B(r) scatter loss due to gold *********
//
// coefs a0..a5 as in TG43, r for beta point kernel, or carrier T factors
bra0 0.899999976 // a0 <float>
bra1 0 // a1 <float>
bra2 0 // a2 <float>
bra3 0 // a3 <float>
bra4 0 // a4 <float>
bra5 0 // a5 <float>
brxt 0 // lookup table, 0=interpolate from table, 1=use coefs <integer>
brsm 1 // smooth, 0=no, 1=yes <integer>
brrg 50 // moving avg range <integer>
br#p 20 // MUST be 20, # of points in table <integer>
// data table format: <key><tab><index><tab><distance(mm)><tab><value><cr>
brp# 0 0 1.017
brp# 1 2.16 1.017
brp# 2 4.88 0.964
brp# 3 7.37 0.943
brp# 4 9.96 0.93
brp# 5 13.8 0.916
brp# 6 17.66 0.904
brp# 7 20 0.9
brp# 8 22 0.9
brp# 9 24 0.9
brp# 10 26 0.9
brp# 11 28 0.9
brp# 12 30 0.9
brp# 13 32 0.9
brp# 14 34 0.9
brp# 15 36 0.9
brp# 16 37 0.9
brp# 17 38 0.9
brp# 18 39 0.9
brp# 19 40 0.9
//
// ******* A(r) scatter loss due to air interface *********
//
ar#d 3 // number of air curves in use, (a0>0,max=3) <integer>
ara0 5 10 22.5 // distance mm<float>
ara1 0 0 0 //reserved <float>
ara2 0 0 0 //reserved <float>
ara3 0 0 0 //reserved <float>
ara4 0 0 0 //reserved <float>
ara5 0 0 0 //reserved <float>
arxt 0 0 0 //MUST be 0 <integer>
arsm 0 0 0 //smooth, 0=no, 1=yes <integer>
arrg 50 50 50 //moving avg range <integer>
ar#p 20 20 20 //MUST be 20, # of points in table <integer>
// data table format: <key><tab><index><tab><angle(deg)><tab><value><cr>
arp# 0 0 0.92 0 0.92 0 0.884 //
arp# 1 0.5 0.94 0.5 0.94 0.5 0.898 //
arp# 2 1 0.968 1 0.968 1 0.91 //
arp# 3 2 0.99 2 0.975 2 0.93 //
arp# 4 3 0.995 3 0.981 3 0.944 //
arp# 5 4 0.998 4 0.984 4 0.959 //
arp# 6 5 1 5 0.988 5 0.967 //
arp# 7 6 1 6 0.99 6 0.974 //
arp# 8 7 1 7 0.992 7 0.979 //
arp# 9 8 1 8 0.994 8 0.984 //
arp# 10 9 1 9 0.996 9 0.988 //
arp# 11 10 1 10 0.997 10 0.9905 //
arp# 12 11 1 11 0.998 11 0.992 //
arp# 13 12 1 12 0.999 12 0.993 //
arp# 14 13 1 13 0.9995 13 0.994 //
arp# 15 14 1 14 0.9998 14 0.995 //
arp# 16 16 1 16 1 16 0.997 //
arp# 17 18 1 18 1 18 0.999 //
arp# 18 20 1 20 1 20 1 //
arp# 19 40 1 40 1 40 1 //
//
// ******* T(r) carrier correction *********
//
// coefs a0..a5 as in TG43, r for beta point kernel, or carrier T factors
tra0 0.899999976 // T <silastic> <float>
tra1 0.101000004 // u <silastic> <float>
tra2 1.00999999 // T <acrylic> <float>
tra3 0.041999999 // u <acrylic> <float>
tra4 0.046 // u <water> <float>
tra5 0.000541 // a5 <float>
trxt 0 // lookup table, 0=interpolate from table, 1=use coefs <integer>
trsm 0 // smooth, 0=no, 1=yes <integer>
trrg 100 // moving avg range <integer>
tr#p 20 // MUST be 20, # of points in table <integer>
// data table format: <key><tab><index><tab><distance(mm)><tab><value><cr>
trp# 0 0 0.922
trp# 1 1 0.921
trp# 2 2 0.919
trp# 3 3 0.915
trp# 4 4 0.91
trp# 5 5 0.905
trp# 6 6 0.899
trp# 7 7 0.892
trp# 8 8 0.886
trp# 9 9 0.88
trp# 10 10 0.874
trp# 11 11 0.868
trp# 12 12 0.863
trp# 13 14 0.853
trp# 14 16 0.845
trp# 15 18 0.838
trp# 16 20 0.833
trp# 17 25 0.822
trp# 18 30 0.816
trp# 19 40 0.808
//
// ******* air kerma strength midpoints **********
//
am#p 32 // # of points in table <integer>
// table format: <key><tab><index><tab><value><cr>
amp# 0 1.27
amp# 1 1.905
amp# 2 2.54
amp# 3 3.175
amp# 4 3.81
amp# 5 4.445
amp# 6 5.08
amp# 7 5.715
amp# 8 6.35
amp# 9 6.985
amp# 10 7.62
amp# 11 8.89
amp# 12 11.43
amp# 13 11.43
amp# 14 12.7
amp# 15 0
amp# 16 0
amp# 17 0
amp# 18 0
amp# 19 0
amp# 20 0
amp# 21 0
amp# 22 0
amp# 23 0
amp# 24 0
amp# 25 0
amp# 26 0
amp# 27 0
amp# 28 0
amp# 29 0
amp# 30 0
amp# 31 0
//
// **************** EOF *****************