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 call FIT(1,1,1,0.2,10.0,0) call FIT(1,3,3,0.2,10.0,0) call FIT(1,5,5,0.5,10.0,0) call FIT(2,6,5,0.0,100.,1) call FIT(1,5,6,0.0,1.,1) call FIT(1,1,1,0.2,10.0,0) call FIT(1,3,3,0.2,10.0,0) The dipole is set as an marker, because it is physically there but turned off for this sequence RF shield call FITARB(1.0,EMBT:Q5B:CUR/A/(74.155*BRHO),1000.0,INT(1)) > Dipole MB5C shares a power supply with MB5A > call FIT(1,1,1,0.2,10.0,0) call FIT(1,3,3,0.2,10.0,0) call FIT(2,6,5,0.0,100.,1) call FIT(1,1,2,0.000,1.000,1) call FIT(1,3,4,0.000,1.000,1) call FIT(2,6,5,0.0,100.,1) call FIT(1,1,1,0.2,10.0,0) call FIT(1,3,3,0.2,10.0,0) RF shield The dipole is set as an marker, because it is physically there but turned off for this sequence call FIT(1,3,3,0.000,10.000,1) call fit(1,1,1,0.,10.,1) call fit(1,3,3,0.,10.,1) call fit(1,1,1,0.,10.,1) call fit(1,1,1,0.,10.,1) call FIT(2,1,6,0.000,10.0,1) call FIT(2,2,6,0.000,10.0,1)