# Scanning nozzle used in some demonstrations.
includeFile = ConstantsForNozzles.txt
#Ts/DumpParameters = "T"
########################################
#1. Beam Exit Window
#100 um thickness Mylar window
########################################
s:Ge/ExitWindow/Parent = "Gantry"
s:Ge/ExitWindow/Type = "TsCylinder"
s:Ge/ExitWindow/Material = "Mylar"
d:Ge/ExitWindow/RMin = 0.0 mm
d:Ge/ExitWindow/RMax = 50.0 mm
d:Ge/ExitWindow/HL = 0.05 mm
d:Ge/ExitWindow/SPhi = 0.0 deg
d:Ge/ExitWindow/DPhi = 360.0 deg
d:Ge/ExitWindow/TransX = 0.0 mm
d:Ge/ExitWindow/TransY = 0.0 mm
d:Ge/ExitWindow/TransZ = 299.8 cm
d:Ge/ExitWindow/RotX = 0.0 deg
d:Ge/ExitWindow/RotY = 0.0 deg
d:Ge/ExitWindow/RotZ = 0.0 deg
b:Ge/ExitWindow/Include = "TRUE"
s:Ge/ExitWindow/DrawingStyle = "Solid"
d:Ge/DistanceOf_CenterExitWindow_To_TopMon1 = -30.0 mm
d:Ge/ZPlusOf_Mon1 = Ge/ExitWindow/TransZ + Ge/DistanceOf_CenterExitWindow_To_TopMon1 cm
########################################
#2. Monitor chamber 1.
# Filled with Nitrogen Gas, 3 layers
# Thickness, position, Material
# 1.0 Gold
# 0.0 Aluminum
# -1.0 Gold
########################################
s:Ge/MonitorChamber1/Parent = "Gantry"
s:Ge/MonitorChamber1/Type = "TsCylinder"
s:Ge/MonitorChamber1/Material = "NiGas"
d:Ge/MonitorChamber1/RMin = 0.0 mm
d:Ge/MonitorChamber1/RMax = 100.0 mm
d:Ge/MonitorChamber1/HL = 15.0 mm
d:Ge/MonitorChamber1/SPhi = 0.0 deg
d:Ge/MonitorChamber1/DPhi = 360.0 deg
d:Ge/MonitorChamber1/RotX = 0.0 deg
d:Ge/MonitorChamber1/RotY = 0.0 deg
d:Ge/MonitorChamber1/RotZ = 0.0 deg
d:Ge/MonitorChamber1/TransX = 0.0 mm
d:Ge/MonitorChamber1/TransY = 0.0 mm
d:Ge/MonitorChamber1/TransZ = Ge/ZPlusOf_Mon1 - Ge/MonitorChamber1/HL mm
b:Ge/MonitorChamber1/Include = "TRUE"
s:Ge/MonitorChamber1/Layer1/Parent = "MonitorChamber1"
s:Ge/MonitorChamber1/Layer1/Type = "TsCylinder"
s:Ge/MonitorChamber1/Layer1/Material = "Gold"
d:Ge/MonitorChamber1/Layer1/RMin = 0.0 mm
d:Ge/MonitorChamber1/Layer1/RMax = 90.0 mm
d:Ge/MonitorChamber1/Layer1/HL = 0.002 mm
d:Ge/MonitorChamber1/Layer1/SPhi = 0.0 deg
d:Ge/MonitorChamber1/Layer1/DPhi = 360.0 deg
d:Ge/MonitorChamber1/Layer1/RotX = 0.0 deg
d:Ge/MonitorChamber1/Layer1/RotY = 0.0 deg
d:Ge/MonitorChamber1/Layer1/RotZ = 0.0 deg
d:Ge/MonitorChamber1/Layer1/TransX = 0.0 mm
d:Ge/MonitorChamber1/Layer1/TransY = 0.0 mm
d:Ge/MonitorChamber1/Layer1/TransZ = 10.0 mm
b:Ge/MonitorChamber1/Layer1/Include = "TRUE"
s:Ge/MonitorChamber1/Layer2/Parent = "MonitorChamber1"
s:Ge/MonitorChamber1/Layer2/Type = "TsCylinder"
s:Ge/MonitorChamber1/Layer2/Material = "Aluminum"
d:Ge/MonitorChamber1/Layer2/RMin = 0.0 mm
d:Ge/MonitorChamber1/Layer2/RMax = 90.0 mm
d:Ge/MonitorChamber1/Layer2/HL = 0.003 mm
d:Ge/MonitorChamber1/Layer2/SPhi = 0.0 deg
d:Ge/MonitorChamber1/Layer2/DPhi = 360.0 deg
d:Ge/MonitorChamber1/Layer2/RotX = 0.0 deg
d:Ge/MonitorChamber1/Layer2/RotY = 0.0 deg
d:Ge/MonitorChamber1/Layer2/RotZ = 0.0 deg
d:Ge/MonitorChamber1/Layer2/TransX = 0.0 mm
d:Ge/MonitorChamber1/Layer2/TransY = 0.0 mm
d:Ge/MonitorChamber1/Layer2/TransZ = 0.0 mm
b:Ge/MonitorChamber1/Layer2/Include = "TRUE"
s:Ge/MonitorChamber1/Layer3/Parent = "MonitorChamber1"
s:Ge/MonitorChamber1/Layer3/Type = "TsCylinder"
s:Ge/MonitorChamber1/Layer3/Material = "Gold"
d:Ge/MonitorChamber1/Layer3/RMin = 0.0 mm
d:Ge/MonitorChamber1/Layer3/RMax = 90.0 mm
d:Ge/MonitorChamber1/Layer3/HL = 0.003 mm
d:Ge/MonitorChamber1/Layer3/SPhi = 0.0 deg
d:Ge/MonitorChamber1/Layer3/DPhi = 360.0 deg
d:Ge/MonitorChamber1/Layer3/RotX = 0.0 deg
d:Ge/MonitorChamber1/Layer3/RotY = 0.0 deg
d:Ge/MonitorChamber1/Layer3/RotZ = 0.0 deg
d:Ge/MonitorChamber1/Layer3/TransX = 0.0 mm
d:Ge/MonitorChamber1/Layer3/TransY = 0.0 mm
d:Ge/MonitorChamber1/Layer3/TransZ = -10.0 mm
b:Ge/MonitorChamber1/Layer3/Include = "TRUE"
#Distance calculation for Pipe
d:Ge/DistanceOf_BottomMon1_To_TopPipe = -20.0 mm
d:Ge/ZMinusOf_Mon1 = Ge/MonitorChamber1/TransZ - Ge/MonitorChamber1/HL mm
d:Ge/ZPlusOf_Pipe = Ge/ZMinusOf_Mon1 + Ge/DistanceOf_BottomMon1_To_TopPipe mm
############################################
# Quad/Dipole Field specification in length
############################################
#Gap Quad1 Gap Quad2 Gap
#2.0 cm + 5.0*2 + 4.0 + 5.0*2 + 2.0 = 28.0 cm
d:Ge/HLOf_PipeInQuads = 14.0 cm
d:Ge/HLOf_Quad1 = 5.0 cm
d:Ge/HLOf_Quad2 = Ge/HLOf_Quad1 cm
d:Ge/Gap_Top_Quad1 = 2.0 cm
d:Ge/Gap_Quad1_Quad2 = 4.0 cm
d:Ge/Gap_Quad2_Bottom = 2.0 cm
d:Ge/HLxyOf_Quads = 47.0 mm
d:Ge/HLxyOf_Dipoles = 77.0 mm
d:Ge/ThicknessOf_Pipe = 3.0 mm
s:Ge/MaterialOf_PipeWall = "Aluminum"
s:Ge/MaterialOf_PipeGas = "HeGas"
#s:Ge/MaterialOf_PipeGas = "Vacuum"
d:Ge/FLOf_PipeConnector = 10.0 cm
d:Ge/HLOf_Dipole1 = 10.5 cm
d:Ge/HLOf_Dipole2 = 13.0 cm
d:Ge/DistanceOf_Coil1_Dipole1 = 6.0 cm
d:Ge/DistanceOf_Coil2_Dipole2 = 8.0 cm
d:Ge/DistanceOf_BottomDipoleCoil1_To_TopDipoleCoil2 = 1.0 cm
d:Ge/DistanceOf_BottomPipe_To_TopBPM1 = -1.0 mm
d:Ge/DistanceOf_BottomBPM1_To_PipeExtension = -0.0 mm
d:Ge/DistanceOf_BottomPipeExtension_To_BPM2 = -0.0 mm
#########################################################
#Calculated parameters from input
#Don't modify following calculations
d:Ge/HLOf_DipoleCoil1 = Ge/HLOf_Dipole1 + Ge/DistanceOf_Coil1_Dipole1 cm
d:Ge/HLOf_DipoleCoil2 = Ge/HLOf_Dipole2 + Ge/DistanceOf_Coil2_Dipole2 cm
d:Ge/FLOf_DipoleCoil1 = Ge/HLOf_DipoleCoil1 cm * 2.0
d:Ge/FLOf_DipoleCoil2 = Ge/HLOf_DipoleCoil2 cm * 2.0
d:Ge/FLOf_DipoleCoil1_DipoleCoil2 = Ge/FLOf_DipoleCoil1 + Ge/FLOf_DipoleCoil2 cm
d:Ge/FLOf_PipeInQuads = 2.0 * Ge/HLOf_PipeInQuads cm
d:Ge/HLOf_PipeConnector = Ge/FLOf_PipeConnector cm * 0.5
d:Ge/FLOf_PipeInDipoles = Ge/FLOf_DipoleCoil1_DipoleCoil2 + Ge/DistanceOf_BottomDipoleCoil1_To_TopDipoleCoil2 cm
d:Ge/HLOf_PipeInDipoles = Ge/FLOf_PipeInDipoles cm * 0.5
d:Ge/FLOf_QuadsDipoles = Ge/FLOf_PipeInDipoles + Ge/FLOf_PipeInQuads cm
d:Ge/FLOf_Pipe = Ge/FLOf_QuadsDipoles + Ge/FLOf_PipeConnector cm
d:Ge/HLOf_Pipe = Ge/FLOf_Pipe cm * 0.5
########################################################
########################################
# Pipe through Quads/Dipoles/
########################################
s:Ge/BeamPipeInQuadsDipoles/Parent = "Gantry"
s:Ge/BeamPipeInQuadsDipoles/Type = "Group"
d:Ge/BeamPipeInQuadsDipoles/TransX = 0. m
d:Ge/BeamPipeInQuadsDipoles/TransY = 0. m
d:Ge/BeamPipeInQuadsDipoles/TransZ = Ge/ZPlusOf_Pipe - Ge/HLOf_Pipe mm
d:Ge/BeamPipeInQuadsDipoles/RotX = 0. deg
d:Ge/BeamPipeInQuadsDipoles/RotY = 0. deg
d:Ge/BeamPipeInQuadsDipoles/RotZ = 0. deg
s:Ge/PipeInQuads/Parent = "BeamPipeInQuadsDipoles"
s:Ge/PipeInQuads/Type = "TsBox"
s:Ge/PipeInQuads/Material = Ge/MaterialOf_PipeWall
d:Ge/PipeInQuads/HLX = Ge/HLxyOf_Quads + Ge/ThicknessOf_Pipe mm
d:Ge/PipeInQuads/HLY = Ge/HLxyOf_Quads + Ge/ThicknessOf_Pipe mm
d:Ge/PipeInQuads/HLZ = Ge/HLOf_PipeInQuads cm
d:Ge/PipeInQuads/TransX = 0.0 mm
d:Ge/PipeInQuads/TransY = 0.0 mm
d:Ge/PipeInQuads/TransZ = Ge/HLOf_Pipe - Ge/HLOf_PipeInQuads cm
d:Ge/PipeInQuads/RotX = 0.0 deg
d:Ge/PipeInQuads/RotY = 0.0 deg
d:Ge/PipeInQuads/RotZ = 0.0 deg
s:Ge/PipeInQuads/Gas/Parent = "PipeInQuads"
s:Ge/PipeInQuads/Gas/Type = "TsBox"
s:Ge/PipeInQuads/Gas/Material = Ge/MaterialOf_PipeGas
d:Ge/PipeInQuads/Gas/HLX = Ge/HLxyOf_Quads mm
d:Ge/PipeInQuads/Gas/HLY = Ge/HLxyOf_Quads mm
d:Ge/PipeInQuads/Gas/HLZ = Ge/PipeInQuads/HLZ cm
d:Ge/PipeInQuads/Gas/TransX = 0.0 mm
d:Ge/PipeInQuads/Gas/TransY = 0.0 mm
d:Ge/PipeInQuads/Gas/TransZ = 0.0 mm
d:Ge/PipeInQuads/Gas/RotX = 0.0 deg
d:Ge/PipeInQuads/Gas/RotY = 0.0 deg
d:Ge/PipeInQuads/Gas/RotZ = 0.0 deg
########################################
#3. Quadrupole 1 and Quadrupole 2 in pipe
########################################
s:Ge/Quad1/Type = "TsBox"
s:Ge/Quad1/Parent = "PipeInQuads/Gas"
s:Ge/Quad1/Material = "parent"
d:Ge/Quad1/HLX = Ge/PipeInQuads/Gas/HLX cm
d:Ge/Quad1/HLY = Ge/PipeInQuads/Gas/HLX cm
d:Ge/Quad1/HLZ = Ge/HLOf_Quad1 cm
d:Ge/Quad1/TransX = 0.0 cm
d:Ge/Quad1/TransY = 0.0 cm
d:Ge/Quad1/Upstream = Ge/PipeInQuads/Gas/HLZ - Ge/Gap_Top_Quad1 cm
d:Ge/Quad1/TransZ = Ge/Quad1/Upstream - Ge/Quad1/HLZ cm
d:Ge/Quad1/Downstream = Ge/Quad1/TransZ - Ge/Quad1/HLZ cm
d:Ge/Quad1/RotX = 0.0 deg
d:Ge/Quad1/RotY = 0.0 deg
d:Ge/Quad1/RotZ = 0.0 deg
s:Ge/Quad1/Field = "QuadrupoleMagnet"
u:Ge/Quad1/MagneticFieldDirectionX = -1
u:Ge/Quad1/MagneticFieldDirectionY = 2.0
u:Ge/Quad1/MagneticFieldDirectionZ = 3.0
d:Ge/Quad1/MagneticFieldGradientX = 0.0 tesla/cm
d:Ge/Quad1/MagneticFieldGradientY = 0.0 tesla/cm
s:Ge/Quad2/Type = "TsBox"
s:Ge/Quad2/Parent = "PipeInQuads/Gas"
s:Ge/Quad2/Material = "parent"
d:Ge/Quad2/HLX = Ge/PipeInQuads/Gas/HLX cm
d:Ge/Quad2/HLY = Ge/PipeInQuads/Gas/HLX cm
d:Ge/Quad2/HLZ = Ge/HLOf_Quad2 cm
d:Ge/Quad2/TransX = 0.0 cm
d:Ge/Quad2/TransY = 0.0 cm
d:Ge/Quad2/Upstream = Ge/Quad1/Downstream - Ge/Gap_Quad1_Quad2 cm
d:Ge/Quad2/TransZ = Ge/Quad2/Upstream - Ge/Quad2/HLZ cm
d:Ge/Quad2/RotX = 0.0 deg
d:Ge/Quad2/RotY = 0.0 deg
d:Ge/Quad2/RotZ = 0.0 deg
s:Ge/Quad2/Field = "QuadrupoleMagnet"
u:Ge/Quad2/MagneticFieldDirectionX = -1
u:Ge/Quad2/MagneticFieldDirectionY = 2.0
u:Ge/Quad2/MagneticFieldDirectionZ = 3.0
d:Ge/Quad2/MagneticFieldGradientX = 0.0 tesla/cm
d:Ge/Quad2/MagneticFieldGradientY = 0.0 tesla/cm
d:Ge/ZPlusPipeConnector = Ge/PipeInQuads/TransZ - Ge/HLOf_PipeInQuads cm
s:Ge/PipeConnector/Parent = "BeamPipeInQuadsDipoles"
s:Ge/PipeConnector/Type = "G4Trd"
s:Ge/PipeConnector/Material = Ge/MaterialOf_PipeWall
d:Ge/PipeConnector/HLX2 = Ge/HLxyOf_Quads + Ge/ThicknessOf_Pipe mm
d:Ge/PipeConnector/HLY2 = Ge/HLxyOf_Quads + Ge/ThicknessOf_Pipe mm
d:Ge/PipeConnector/HLX1 = Ge/HLxyOf_Dipoles + Ge/ThicknessOf_Pipe mm
d:Ge/PipeConnector/HLY1 = Ge/HLxyOf_Dipoles + Ge/ThicknessOf_Pipe mm
d:Ge/PipeConnector/HLZ = Ge/HLOf_PipeConnector mm
d:Ge/PipeConnector/TransX = 0.0 mm
d:Ge/PipeConnector/TransY = 0.0 mm
d:Ge/PipeConnector/TransZ = Ge/ZPlusPipeConnector - Ge/HLOf_PipeConnector mm
d:Ge/PipeConnector/RotX = 0.0 deg
d:Ge/PipeConnector/RotY = 0.0 deg
d:Ge/PipeConnector/RotZ = 0.0 deg
b:Ge/PipeConnector/Include = "TRUE"
s:Ge/PipeConnector/Gas/Parent = "PipeConnector"
s:Ge/PipeConnector/Gas/Type = "G4Trd"
s:Ge/PipeConnector/Gas/Material = Ge/MaterialOf_PipeGas
d:Ge/PipeConnector/Gas/HLX2 = Ge/HLxyOf_Quads mm
d:Ge/PipeConnector/Gas/HLY2 = Ge/HLxyOf_Quads mm
d:Ge/PipeConnector/Gas/HLX1 = Ge/HLxyOf_Dipoles mm
d:Ge/PipeConnector/Gas/HLY1 = Ge/HLxyOf_Dipoles mm
d:Ge/PipeConnector/Gas/HLZ = Ge/PipeConnector/HLZ mm
d:Ge/PipeConnector/Gas/TransX = 0.0 mm
d:Ge/PipeConnector/Gas/TransY = 0.0 mm
d:Ge/PipeConnector/Gas/TransZ = 0.0 mm
d:Ge/PipeConnector/Gas/RotX = 0.0 deg
d:Ge/PipeConnector/Gas/RotY = 0.0 deg
d:Ge/PipeConnector/Gas/RotZ = 0.0 deg
b:Ge/PipeConnector/Gas/Include = "TRUE"
d:Ge/ZPlusPipeInDipoles = Ge/PipeConnector/TransZ - Ge/HLOf_PipeConnector cm
s:Ge/PipeInDipoles/Parent = "BeamPipeInQuadsDipoles"
s:Ge/PipeInDipoles/Type = "TsBox"
s:Ge/PipeInDipoles/Material = Ge/MaterialOf_PipeWall
d:Ge/PipeInDipoles/HLX = Ge/HLxyOf_Dipoles + Ge/ThicknessOf_Pipe mm
d:Ge/PipeInDipoles/HLY = Ge/HLxyOf_Dipoles + Ge/ThicknessOf_Pipe mm
d:Ge/PipeInDipoles/HLZ = Ge/HLOf_PipeInDipoles cm
d:Ge/PipeInDipoles/TransX = 0.0 mm
d:Ge/PipeInDipoles/TransY = 0.0 mm
d:Ge/PipeInDipoles/TransZ = Ge/ZPlusPipeInDipoles - Ge/HLOf_PipeInDipoles cm
d:Ge/PipeInDipoles/RotX = 0.0 deg
d:Ge/PipeInDipoles/RotY = 0.0 deg
d:Ge/PipeInDipoles/RotZ = 0.0 deg
b:Ge/PipeInDipoles/Include = "TRUE"
s:Ge/PipeInDipoles/Gas/Parent = "PipeInDipoles"
s:Ge/PipeInDipoles/Gas/Type = "TsBox"
s:Ge/PipeInDipoles/Gas/Material = Ge/MaterialOf_PipeGas
d:Ge/PipeInDipoles/Gas/HLX = Ge/HLxyOf_Dipoles mm
d:Ge/PipeInDipoles/Gas/HLY = Ge/HLxyOf_Dipoles mm
d:Ge/PipeInDipoles/Gas/HLZ = Ge/HLOf_PipeInDipoles cm
d:Ge/PipeInDipoles/Gas/TransX = 0.0 mm
d:Ge/PipeInDipoles/Gas/TransY = 0.0 mm
d:Ge/PipeInDipoles/Gas/TransZ = 0.0 mm
d:Ge/PipeInDipoles/Gas/RotX = 0.0 deg
d:Ge/PipeInDipoles/Gas/RotY = 0.0 deg
d:Ge/PipeInDipoles/Gas/RotZ = 0.0 deg
b:Ge/PipeInDipoles/Gas/Include = "TRUE"
########################################
#5. Dipole 1 and 2. in Pipe
########################################
s:Ge/Dipole1/Type = "TsBox"
s:Ge/Dipole1/Parent = "PipeInDipoles/Gas"
s:Ge/Dipole1/Material = "parent"
d:Ge/Dipole1/HLX = Ge/PipeInDipoles/Gas/HLX mm
d:Ge/Dipole1/HLY = Ge/PipeInDipoles/Gas/HLY mm
d:Ge/Dipole1/HLZ = Ge/HLOf_Dipole1 mm
d:Ge/Dipole1/TransX = 0.0 cm
d:Ge/Dipole1/TransY = 0.0 cm
d:Ge/Dipole1/TransZ = Ge/HLOf_PipeInDipoles - Ge/HLOf_DipoleCoil1 mm
d:Ge/Dipole1/RotX = 0.0 deg
d:Ge/Dipole1/RotY = 0.0 deg
d:Ge/Dipole1/RotZ = 0.0 deg
s:Ge/Dipole1/Field = "DipoleMagnet"
u:Ge/Dipole1/MagneticFieldDirectionX = 1.0
u:Ge/Dipole1/MagneticFieldDirectionY = 0.0
u:Ge/Dipole1/MagneticFieldDirectionZ = 0.0
d:Ge/Dipole1/MagneticFieldStrength = 0.0 tesla
d:Ge/ZMinusOf_Dipole1 = Ge/Dipole1/TransZ - Ge/HLOf_DipoleCoil1 mm
d:Ge/ZPlusOf_Dipole2 = Ge/ZMinusOf_Dipole1 + Ge/DistanceOf_BottomDipoleCoil1_To_TopDipoleCoil2 cm
s:Ge/Dipole2/Type = "TsBox"
s:Ge/Dipole2/Parent = "PipeInDipoles/Gas"
s:Ge/Dipole2/Material = "parent"
d:Ge/Dipole2/HLX = Ge/PipeInDipoles/Gas/HLX mm
d:Ge/Dipole2/HLY = Ge/PipeInDipoles/Gas/HLY mm
d:Ge/Dipole2/HLZ = Ge/HLOf_Dipole2 mm
d:Ge/Dipole2/TransX = 0.0 cm
d:Ge/Dipole2/TransY = 0.0 cm
d:Ge/Dipole2/TransZ = Ge/ZPlusOf_Dipole2 - Ge/HLOf_DipoleCoil2 mm
d:Ge/Dipole2/RotX = 0.0 deg
d:Ge/Dipole2/RotY = 0.0 deg
d:Ge/Dipole2/RotZ = 0.0 deg
s:Ge/Dipole2/Field = "DipoleMagnet"
u:Ge/Dipole2/MagneticFieldDirectionX = 0.0
u:Ge/Dipole2/MagneticFieldDirectionY = 1.0
u:Ge/Dipole2/MagneticFieldDirectionZ = 0.0
d:Ge/Dipole2/MagneticFieldStrength = 0.0 tesla
d:Ge/ZMinusOf_Pipe = Ge/BeamPipeInQuadsDipoles/TransZ - Ge/HLOf_Pipe mm
d:Ge/ZPlusOf_BPM1 = Ge/ZMinusOf_Pipe + Ge/DistanceOf_BottomPipe_To_TopBPM1 mm
########################################
#5. Beam profile Monitor chamber at the end of pipe
#HLx, HLy, HLz (9.2, 9.2, 1.8)
# 2 Mylar windows
# 2 sets of Multi-wire chamber
########################################
s:Ge/BeamProfileMonitor1/Parent = "Gantry"
s:Ge/BeamProfileMonitor1/Type = "TsBox"
s:Ge/BeamProfileMonitor1/Material = "NiGas"
d:Ge/BeamProfileMonitor1/HLX = 92.0 mm
d:Ge/BeamProfileMonitor1/HLY = 92.0 mm
d:Ge/BeamProfileMonitor1/HLZ = 22.0 mm
d:Ge/BeamProfileMonitor1/TransX = 0.0 mm
d:Ge/BeamProfileMonitor1/TransY = 0.0 mm
d:Ge/BeamProfileMonitor1/TransZ = Ge/ZPlusOf_BPM1 - Ge/BeamProfileMonitor1/HLZ cm
d:Ge/BeamProfileMonitor1/RotX = 0.0 deg
d:Ge/BeamProfileMonitor1/RotY = 0.0 deg
d:Ge/BeamProfileMonitor1/RotZ = 0.0 deg
b:Ge/BeamProfileMonitor1/Include = "TRUE"
s:Ge/BeamProfileMonitor1/Window1/Parent = "BeamProfileMonitor1"
s:Ge/BeamProfileMonitor1/Window1/Type = "TsBox"
s:Ge/BeamProfileMonitor1/Window1/Material = "Mylar"
d:Ge/BeamProfileMonitor1/Window1/HLX = 90.0 mm
d:Ge/BeamProfileMonitor1/Window1/HLY = 90.0 mm
d:Ge/BeamProfileMonitor1/Window1/HLZ = 0.02 mm
d:Ge/BeamProfileMonitor1/Window1/TransX = 0.0 mm
d:Ge/BeamProfileMonitor1/Window1/TransY = 0.0 mm
d:Ge/BeamProfileMonitor1/Window1/TransZ = 18.123 mm
d:Ge/BeamProfileMonitor1/Window1/RotX = 0.0 deg
d:Ge/BeamProfileMonitor1/Window1/RotY = 0.0 deg
d:Ge/BeamProfileMonitor1/Window1/RotZ = 0.0 deg
s:Ge/BeamProfileMonitor1/Window2/Parent = "BeamProfileMonitor1"
s:Ge/BeamProfileMonitor1/Window2/Type = "TsBox"
s:Ge/BeamProfileMonitor1/Window2/Material = "Mylar"
d:Ge/BeamProfileMonitor1/Window2/HLX = 90.0 mm
d:Ge/BeamProfileMonitor1/Window2/HLY = 90.0 mm
d:Ge/BeamProfileMonitor1/Window2/HLZ = 0.02 mm
d:Ge/BeamProfileMonitor1/Window2/TransX = 0.0 mm
d:Ge/BeamProfileMonitor1/Window2/TransY = 0.0 mm
d:Ge/BeamProfileMonitor1/Window2/TransZ = -18.123 mm
d:Ge/BeamProfileMonitor1/Window2/RotX = 0.0 deg
d:Ge/BeamProfileMonitor1/Window2/RotY = 0.0 deg
d:Ge/BeamProfileMonitor1/Window2/RotZ = 0.0 deg
s:Ge/MWC_In_BPM1/Parent = "BeamProfileMonitor1"
s:Ge/MWC_In_BPM1/Type = "TsMultiWireChamber"
s:Ge/MWC_In_BPM1/Material = "parent"
d:Ge/MWC_In_BPM1/HLX = 88.0 mm
d:Ge/MWC_In_BPM1/HLY = 88.0 mm
d:Ge/MWC_In_BPM1/HLZ = 13.0 mm
d:Ge/MWC_In_BPM1/TransX = 0.0 mm
d:Ge/MWC_In_BPM1/TransY = 0.0 mm
d:Ge/MWC_In_BPM1/TransZ = 0.0 mm
d:Ge/MWC_In_BPM1/RotX = 0.0 deg
d:Ge/MWC_In_BPM1/RotY = 0.0 deg
d:Ge/MWC_In_BPM1/RotZ = 0.0 deg
i:Ge/MWC_In_BPM1/NbOfLayers = 2
d:Ge/MWC_In_BPM1/Layer1/RMin = 0.0 mm
d:Ge/MWC_In_BPM1/Layer1/RMax = 0.02 mm
s:Ge/MWC_In_BPM1/Layer1/Material = "Brass"
d:Ge/MWC_In_BPM1/Layer1/HL = 85.0 mm
s:Ge/MWC_In_BPM1/Layer1/Align = "X"
d:Ge/MWC_In_BPM1/Layer1/PosZ = 5.0 mm
s:Ge/MWC_In_BPM1/Layer1/DrawingStyle = "FullWireFrame"
dv:Ge/MWC_In_BPM1/Layer1/Displacement = 72
-71.9855 -69.9855 -67.9855 -65.9855 -63.9855 -61.9855 -59.9855 -57.9855 -55.9855 -53.9855
-51.9855 -49.9855 -47.9855 -45.9855 -43.9855 -41.9855 -39.9855 -37.9855 -35.9855 -33.9855
-31.9855 -29.9855 -27.9855 -25.9855 -23.9855 -21.9855 -19.9855 -17.9855 -15.9855 -13.9855
-11.9855 -9.9855 -7.9855 -5.9855 -3.9855 -1.9855 0.0145 2.0145 4.0145 6.0145
8.0145 10.0145 12.0145 14.0145 16.0145 18.0145 20.0145 22.0145 24.0145 26.0145
28.0145 30.0145 32.0145 34.0145 36.0145 38.0145 40.0145 42.0145 44.0145 46.0145
48.0145 50.0145 52.0145 54.0145 56.0145 58.0145 60.0145 62.0145 64.0145 66.0145
68.0145 70.0145 mm
d:Ge/MWC_In_BPM1/Layer2/RMin = 0.0 mm
d:Ge/MWC_In_BPM1/Layer2/RMax = 0.02 mm
s:Ge/MWC_In_BPM1/Layer2/Material = "Brass"
d:Ge/MWC_In_BPM1/Layer2/HL = 85.0 mm
s:Ge/MWC_In_BPM1/Layer2/Align = "Y"
d:Ge/MWC_In_BPM1/Layer2/PosZ = -5.0 mm
s:Ge/MWC_In_BPM1/Layer2/DrawingStyle = "FullWireFrame"
s:Ge/MWC_In_BPM1/Layer2/Color = "red"
dv:Ge/MWC_In_BPM1/Layer2/Displacement = 72
-71.9855 -69.9855 -67.9855 -65.9855 -63.9855 -61.9855 -59.9855 -57.9855 -55.9855 -53.9855
-51.9855 -49.9855 -47.9855 -45.9855 -43.9855 -41.9855 -39.9855 -37.9855 -35.9855 -33.9855
-31.9855 -29.9855 -27.9855 -25.9855 -23.9855 -21.9855 -19.9855 -17.9855 -15.9855 -13.9855
-11.9855 -9.9855 -7.9855 -5.9855 -3.9855 -1.9855 0.0145 2.0145 4.0145 6.0145
8.0145 10.0145 12.0145 14.0145 16.0145 18.0145 20.0145 22.0145 24.0145 26.0145
28.0145 30.0145 32.0145 34.0145 36.0145 38.0145 40.0145 42.0145 44.0145 46.0145
48.0145 50.0145 52.0145 54.0145 56.0145 58.0145 60.0145 62.0145 64.0145 66.0145
68.0145 70.0145 mm
d:Ge/ZMinusOf_BPM1 = Ge/BeamProfileMonitor1/TransZ - Ge/BeamProfileMonitor1/HLZ mm
d:Ge/ZPlusOf_PipeExtension = Ge/ZMinusOf_BPM1 + Ge/DistanceOf_BottomBPM1_To_PipeExtension mm
d:Ge/FLOf_PipeExtension = 80.0 cm
d:Ge/HLOf_PipeExtension = Ge/FLOf_PipeExtension cm * 0.5
########################################
#6. Beam pipe extension
#HLx, HLy, (9.2, 9.2)
#HLx, HLy, HLz (1
# 2 Mylar windows
# 2 sets of Multi-wire chamber
########################################
s:Ge/PipeExtension/Parent = "Gantry"
s:Ge/PipeExtension/Type = "G4Trd"
s:Ge/PipeExtension/Material = "Aluminum"
d:Ge/PipeExtension/HLX2 = 92.0 mm
d:Ge/PipeExtension/HLY2 = 92.0 mm
d:Ge/PipeExtension/HLX1 = 122.0 mm
d:Ge/PipeExtension/HLY1 = 122.0 mm
d:Ge/PipeExtension/HLZ = Ge/HLOf_PipeExtension mm
d:Ge/PipeExtension/TransX = 0.0 mm
d:Ge/PipeExtension/TransY = 0.0 mm
d:Ge/PipeExtension/TransZ = Ge/ZPlusOf_PipeExtension - Ge/HLOf_PipeExtension mm
d:Ge/PipeExtension/RotX = 0.0 deg
d:Ge/PipeExtension/RotY = 0.0 deg
d:Ge/PipeExtension/RotZ = 0.0 deg
b:Ge/PipeExtension/Include = "TRUE"
s:Ge/PipeExtension/Gas/Parent = "PipeExtension"
s:Ge/PipeExtension/Gas/Type = "G4Trd"
s:Ge/PipeExtension/Gas/Material = Ge/PipeInQuads/Gas/Material
d:Ge/PipeExtension/Gas/HLX2 = 90.0 mm
d:Ge/PipeExtension/Gas/HLY2 = 90.0 mm
d:Ge/PipeExtension/Gas/HLX1 = 120.0 mm
d:Ge/PipeExtension/Gas/HLY1 = 120.0 mm
d:Ge/PipeExtension/Gas/HLZ = Ge/PipeExtension/HLZ mm
d:Ge/PipeExtension/Gas/TransX = 0.0 mm
d:Ge/PipeExtension/Gas/TransY = 0.0 mm
d:Ge/PipeExtension/Gas/TransZ = 0.0 mm
d:Ge/PipeExtension/Gas/RotX = 0.0 deg
d:Ge/PipeExtension/Gas/RotY = 0.0 deg
d:Ge/PipeExtension/Gas/RotZ = 0.0 deg
b:Ge/PipeExtension/Gas/Include = "TRUE"
d:Ge/ZMinusOf_PipeExtension = Ge/PipeExtension/TransZ - Ge/HLOf_PipeExtension mm
d:Ge/ZPlusOf_BPM2 = Ge/ZMinusOf_PipeExtension + Ge/DistanceOf_BottomPipeExtension_To_BPM2 mm
########################################
#6. Beam profile monitor 2
# 2 Mylar windows
# 2 sets of Multi-wire chamber
########################################
s:Ge/BeamProfileMonitor2/Parent = "Gantry"
s:Ge/BeamProfileMonitor2/Type = "TsBox"
s:Ge/BeamProfileMonitor2/Material = "NiGas"
d:Ge/BeamProfileMonitor2/HLX = 152.0 mm
d:Ge/BeamProfileMonitor2/HLY = 152.0 mm
d:Ge/BeamProfileMonitor2/HLZ = 25.0 mm
d:Ge/BeamProfileMonitor2/TransX = 0.0 mm
d:Ge/BeamProfileMonitor2/TransY = 0.0 mm
d:Ge/BeamProfileMonitor2/TransZ = Ge/ZPlusOf_BPM2 - Ge/BeamProfileMonitor2/HLZ mm
d:Ge/BeamProfileMonitor2/RotX = 0.0 deg
d:Ge/BeamProfileMonitor2/RotY = 0.0 deg
d:Ge/BeamProfileMonitor2/RotZ = 0.0 deg
b:Ge/BeamProfileMonitor2/Include = "TRUE"
s:Ge/BeamProfileMonitor2/Window1/Parent = "BeamProfileMonitor2"
s:Ge/BeamProfileMonitor2/Window1/Type = "TsBox"
s:Ge/BeamProfileMonitor2/Window1/Material = "Mylar"
d:Ge/BeamProfileMonitor2/Window1/HLX = 150.0 mm
d:Ge/BeamProfileMonitor2/Window1/HLY = 150.0 mm
d:Ge/BeamProfileMonitor2/Window1/HLZ = 0.01 mm
d:Ge/BeamProfileMonitor2/Window1/TransX = 0.0 mm
d:Ge/BeamProfileMonitor2/Window1/TransY = 0.0 mm
d:Ge/BeamProfileMonitor2/Window1/TransZ = 18.123 mm
d:Ge/BeamProfileMonitor2/Window1/RotX = 0.0 deg
d:Ge/BeamProfileMonitor2/Window1/RotY = 0.0 deg
d:Ge/BeamProfileMonitor2/Window1/RotZ = 0.0 deg
s:Ge/BeamProfileMonitor2/Window2/Parent = "BeamProfileMonitor2"
s:Ge/BeamProfileMonitor2/Window2/Type = "TsBox"
s:Ge/BeamProfileMonitor2/Window2/Material = "Mylar"
d:Ge/BeamProfileMonitor2/Window2/HLX = 150.0 mm
d:Ge/BeamProfileMonitor2/Window2/HLY = 150.0 mm
d:Ge/BeamProfileMonitor2/Window2/HLZ = 0.01 mm
d:Ge/BeamProfileMonitor2/Window2/TransX = 0.0 mm
d:Ge/BeamProfileMonitor2/Window2/TransY = 0.0 mm
d:Ge/BeamProfileMonitor2/Window2/TransZ = -18.123 mm
d:Ge/BeamProfileMonitor2/Window2/RotX = 0.0 deg
d:Ge/BeamProfileMonitor2/Window2/RotY = 0.0 deg
d:Ge/BeamProfileMonitor2/Window2/RotZ = 0.0 deg
s:Ge/MWC_In_BPM2/Parent = "BeamProfileMonitor2"
s:Ge/MWC_In_BPM2/Type = "TsMultiWireChamber"
s:Ge/MWC_In_BPM2/Material = "parent"
d:Ge/MWC_In_BPM2/HLX = 148.0 mm
d:Ge/MWC_In_BPM2/HLY = 148.0 mm
d:Ge/MWC_In_BPM2/HLZ = 13.0 mm
d:Ge/MWC_In_BPM2/TransX = 0.0 mm
d:Ge/MWC_In_BPM2/TransY = 0.0 mm
d:Ge/MWC_In_BPM2/TransZ = 0.0 mm
d:Ge/MWC_In_BPM2/RotX = 0.0 deg
d:Ge/MWC_In_BPM2/RotY = 0.0 deg
d:Ge/MWC_In_BPM2/RotZ = 0.0 deg
i:Ge/MWC_In_BPM2/NbOfLayers = 2
d:Ge/MWC_In_BPM2/Layer1/RMin = 0.0 mm
d:Ge/MWC_In_BPM2/Layer1/RMax = 0.02 mm
s:Ge/MWC_In_BPM2/Layer1/Material = "Brass"
d:Ge/MWC_In_BPM2/Layer1/HL = 147.0 mm
s:Ge/MWC_In_BPM2/Layer1/Align = "X"
d:Ge/MWC_In_BPM2/Layer1/PosZ = 5.0 mm
s:Ge/MWC_In_BPM2/Layer1/DrawingStyle = "Solid"
dv:Ge/MWC_In_BPM2/Layer1/Displacement = 81
-140. -136.5 -133. -129.5 -126. -122.5 -119. -115.5
-112. -108.5 -105. -101.5 -98. -94.5 -91. -87.5
-84. -80.5 -77. -73.5 -70. -66.5 -63. -59.5
-56. -52.5 -49. -45.5 -42. -38.5 -35. -31.5
-28. -24.5 -21. -17.5 -14. -10.5 -7. -3.5
0. 3.5 7. 10.5 14. 17.5 21. 24.5
28. 31.5 35. 38.5 42. 45.5 49. 52.5
56. 59.5 63. 66.5 70. 73.5 77. 80.5
84. 87.5 91. 94.5 98. 101.5 105. 108.5
112. 115.5 119. 122.5 126. 129.5 133. 136.5
140. mm
d:Ge/MWC_In_BPM2/Layer2/RMin = 0.0 mm
d:Ge/MWC_In_BPM2/Layer2/RMax = 0.02 mm
s:Ge/MWC_In_BPM2/Layer2/Material = "Brass"
d:Ge/MWC_In_BPM2/Layer2/HL = 147.0 mm
s:Ge/MWC_In_BPM2/Layer2/Align = "Y"
d:Ge/MWC_In_BPM2/Layer2/PosZ = -5.0 mm
s:Ge/MWC_In_BPM2/Layer2/DrawingStyle = "Solid"
s:Ge/MWC_In_BPM2/Layer2/Color = "red"
dv:Ge/MWC_In_BPM2/Layer2/Displacement = 81
-140. -136.5 -133. -129.5 -126. -122.5 -119. -115.5
-112. -108.5 -105. -101.5 -98. -94.5 -91. -87.5
-84. -80.5 -77. -73.5 -70. -66.5 -63. -59.5
-56. -52.5 -49. -45.5 -42. -38.5 -35. -31.5
-28. -24.5 -21. -17.5 -14. -10.5 -7. -3.5
0. 3.5 7. 10.5 14. 17.5 21. 24.5
28. 31.5 35. 38.5 42. 45.5 49. 52.5
56. 59.5 63. 66.5 70. 73.5 77. 80.5
84. 87.5 91. 94.5 98. 101.5 105. 108.5
112. 115.5 119. 122.5 126. 129.5 133. 136.5
140. mm