# Target used in some demonstrations.
includeFile = ConstantsForNozzles.txt
s:Ge/WaterPhantom/Type = "TsBox"
s:Ge/WaterPhantom/Parent = "World"
s:Ge/WaterPhantom/Material = "G4_WATER"
d:Ge/WaterPhantom/HLX = 8.0 cm
d:Ge/WaterPhantom/HLY = 8.0 cm
d:Ge/WaterPhantom/HLZ = 10.0 cm
d:Ge/WaterPhantom/MinusHLZ = Ge/WaterPhantom/HLZ cm * -1.0
d:Ge/WaterPhantom/TransX = 0. cm
d:Ge/WaterPhantom/TransY = 0. cm
d:Ge/WaterPhantom/TransZ = Ge/WaterPhantom/MinusHLZ cm
d:Ge/WaterPhantom/RotX = 0. deg
d:Ge/WaterPhantom/RotY = 0. deg
d:Ge/WaterPhantom/RotZ = 0. deg
s:Ge/WaterPhantom/Color = "white"
#Value for placing a target.
#146.25 mm is the R80 for about 141 MeV proton
d:Ge/R80 = -146.25 mm
s:Ge/PlaneAtR80/Type = "TsBox"
s:Ge/PlaneAtR80/Parent = "WaterPhantom"
s:Ge/PlaneAtR80/Material = "G4_WATER"
d:Ge/PlaneAtR80/HLX = 5.0 cm
d:Ge/PlaneAtR80/HLY = 5.0 cm
d:Ge/PlaneAtR80/HLZ = 0.5 cm
d:Ge/PlaneAtR80/TransX = 0. cm
d:Ge/PlaneAtR80/TransY = 0. cm
d:Ge/PlaneAtR80/TransZ = Ge/WaterPhantom/HLZ + Ge/R80 cm
d:Ge/PlaneAtR80/RotX = 0.0 deg
d:Ge/PlaneAtR80/RotY = 0.0 deg
d:Ge/PlaneAtR80/RotZ = 0.0 deg
s:Ge/PlaneAtR80/Color = "red"
i:Ge/PlaneAtR80/XBins = 1
i:Ge/PlaneAtR80/YBins = 1
i:Ge/PlaneAtR80/ZBins = 1