Difference between revisions of "GTS meeting 3 28 17"
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* Conditioned Gun at 300 kV with solenoid at 0 to 300 A, left to do it at: 325, 350, 375, and 400 A. Two currents, 350 and 400 A, we attempted before but we will repeat. | * Conditioned Gun at 300 kV with solenoid at 0 to 300 A, left to do it at: 325, 350, 375, and 400 A. Two currents, 350 and 400 A, we attempted before but we will repeat. | ||
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* Attempting to center solenoid by moving magnet: | * Attempting to center solenoid by moving magnet: | ||
# Moved solenoid 1.5 mm to beam left - closer to active area at 3:00 o'clock | # Moved solenoid 1.5 mm to beam left - closer to active area at 3:00 o'clock | ||
# Moved solenoid 3.2 mm (from center) to beam right. In both cases no improvement by looking at beam on ITVGT03 (first viewer) while scanning the solenoid between 10-150 Amps. Beam can be seen on edge of viewer rotating clockwise. | # Moved solenoid 3.2 mm (from center) to beam right. In both cases no improvement by looking at beam on ITVGT03 (first viewer) while scanning the solenoid between 10-150 Amps. Beam can be seen on edge of viewer rotating clockwise. | ||
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* Magnet was moved back to original center position by S&A. We are waiting on final survey report. | * Magnet was moved back to original center position by S&A. We are waiting on final survey report. | ||
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* Attempting to center solenoid by moving active area: | * Attempting to center solenoid by moving active area: | ||
# Moved active area to 9:00 o'clock, 12 o'clock and 6 o'clock. In the three cases no improvement by looking at beam on ITVGT03 (first viewer) while scanning the solenoid between 10-150 Amps. beam behaved similarly in all cases of centering. | # Moved active area to 9:00 o'clock, 12 o'clock and 6 o'clock. In the three cases no improvement by looking at beam on ITVGT03 (first viewer) while scanning the solenoid between 10-150 Amps. beam behaved similarly in all cases of centering. | ||
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* Laser Newport powermeter is now at the exit window side of the gun | * Laser Newport powermeter is now at the exit window side of the gun | ||
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* Laser tables are covered | * Laser tables are covered | ||
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* Plan for this week (March 27, 2017): | * Plan for this week (March 27, 2017): | ||
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# Thursday and Friday open all day for beamline bake. Turn ON the extractor gauge in Gun HV Chamber. Use GN2 heater to send 250 C hot gas through the water lines of the FCup to degas. | # Thursday and Friday open all day for beamline bake. Turn ON the extractor gauge in Gun HV Chamber. Use GN2 heater to send 250 C hot gas through the water lines of the FCup to degas. | ||
# Week of April 3rd: finish bake and instrument beamline | # Week of April 3rd: finish bake and instrument beamline | ||
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* What we are working on now: | * What we are working on now: | ||
# Still trying to center the gun solenoid | # Still trying to center the gun solenoid | ||
# Do we want to keep the anode biased at +280 V all times (and while running beam)? | # Do we want to keep the anode biased at +280 V all times (and while running beam)? | ||
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* Emittance vs Gun HV: [[media:Emittance_GunHV_3468399.xlsx]] [https://logbooks/entry/3468399] | * Emittance vs Gun HV: [[media:Emittance_GunHV_3468399.xlsx]] [https://logbooks/entry/3468399] | ||
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* These are the simulation tasks that we should try: | * These are the simulation tasks that we should try: | ||
# Simulate beam rotation at: B=0 G (0 A), B=170 G (50 A), B=340 G (100 A), B=510 G (150 A), B=680 G (200 A), B=850 G (250 A), B=1020 G (300 A), B=1190 G (350 A), B=1360 G (400 A) | # Simulate beam rotation at: B=0 G (0 A), B=170 G (50 A), B=340 G (100 A), B=510 G (150 A), B=680 G (200 A), B=850 G (250 A), B=1020 G (300 A), B=1190 G (350 A), B=1360 G (400 A) | ||
# Simulate emittance vs Gun HV | # Simulate emittance vs Gun HV | ||
Revision as of 08:32, 28 March 2017
- Conditioned Gun at 300 kV with solenoid at 0 to 300 A, left to do it at: 325, 350, 375, and 400 A. Two currents, 350 and 400 A, we attempted before but we will repeat.
- Attempting to center solenoid by moving magnet:
- Moved solenoid 1.5 mm to beam left - closer to active area at 3:00 o'clock
- Moved solenoid 3.2 mm (from center) to beam right. In both cases no improvement by looking at beam on ITVGT03 (first viewer) while scanning the solenoid between 10-150 Amps. Beam can be seen on edge of viewer rotating clockwise.
- Magnet was moved back to original center position by S&A. We are waiting on final survey report.
- Attempting to center solenoid by moving active area:
- Moved active area to 9:00 o'clock, 12 o'clock and 6 o'clock. In the three cases no improvement by looking at beam on ITVGT03 (first viewer) while scanning the solenoid between 10-150 Amps. beam behaved similarly in all cases of centering.
- Laser Newport powermeter is now at the exit window side of the gun
- Laser tables are covered
- Plan for this week (March 27, 2017):
- Monday, Tuesday and Wednesday: open in morning to install second part of beamline but close in afternoon to run beam
- Thursday and Friday open all day for beamline bake. Turn ON the extractor gauge in Gun HV Chamber. Use GN2 heater to send 250 C hot gas through the water lines of the FCup to degas.
- Week of April 3rd: finish bake and instrument beamline
- What we are working on now:
- Still trying to center the gun solenoid
- Do we want to keep the anode biased at +280 V all times (and while running beam)?
- Emittance vs Gun HV: media:Emittance_GunHV_3468399.xlsx [1]
- These are the simulation tasks that we should try:
- Simulate beam rotation at: B=0 G (0 A), B=170 G (50 A), B=340 G (100 A), B=510 G (150 A), B=680 G (200 A), B=850 G (250 A), B=1020 G (300 A), B=1190 G (350 A), B=1360 G (400 A)
- Simulate emittance vs Gun HV