Gun 300 kV bias, produces an axial-symmetric DC electric field Haimson coil Haimson coil The field map comes from bench measurement at 5A + symmetrized + extended to the point that the field is only 0.1 % of the peak field. For more details read: http://lin12.triumf.ca/text/ELinac/ELBT/solenoids/solenoid_model.pdf E-linac type-B steerer E-linac type-B steerer Water cooled faraday cup (3kW max) RF shield View screen (scintillator screen) Beam position monitor Insulation valve EGUN:IV1:STATINT EGUN:IV1:STATDRV EGUN:IV1:STATON EGUN:IV1:STATOFF EGUN:IV1:STATTMO call FIT(1,1,1,0.1,10.0,2) call FIT(1,3,3,0.1,10.0,2) EbeforeBuncher = ENERGK rf buncher call FIT(1,1,1,0.1,10.0,2) call FIT(1,3,3,0.1,10.0,2) call FITARB(1.0,ENERGK/EbeforeBuncher,1000.0,1) E-linac type-A steerer E-linac type-A steerer Adjustable-size collimator RF shield View screen (scintillator and OPTR) Beam position monitor E-linac RadiaBeam solenoid The field map comes from bench measurement at 5A on one (SN0002) of three identical solenoids + extended to the point that the field is only 0.1 % of the peak field. For more details see: http://lin12.triumf.ca/text/ELinac/ELBT/solenoids E-linac type-A steerer E-linac type-A steerer The dipole is set as an marker, because it is physically there but turned off for this sequence Cross-over point E-linac RadiaBeam solenoid The field map comes from bench measurement at 5A on one (SN0002) of three identical solenoids + extended to the point that the field is only 0.1 % of the peak field. For more details see: http://lin12.triumf.ca/text/ELinac/ELBT/solenoids RF shield s FocalPower zEnvelope xDispersion dp/p yDispersion xMeasured yMeasured Energy