heating target for RFQ tests. Now the wiring is insulated with alumina beats and tubing and the target has the standard Ta alkali element mixture
Unfortunately I deleted some entries, so here a short summary in combination with a screenshot of the striptool
heated to 580A, vacuum increased over time from 4.8 to 5.6E-7T
HV up to 30kV - current of 37 uA - seems fine
Mass scan not possible, ops found a water leak in the magnet PS, optics around the magnet are thereofre also not available and red in EPICS
NOTE: all FC values are in reversed bias!!
source +4.5V, 2nd Rep 0V: RFQ offs =0V, RFQ Ampl = 20V, 1 MHz (current 0.26A), locked up
about 2E-9A at FC0
one spark observed
source -5.5V, 2nd Rep 0V: RFQ offs =0V, RFQ Ampl = 20V, 1 MHz (current 0.26A), locked up
about 4E-11A at FC0
source -12V, 2nd Rep 0V: RFQ offs =0V, RFQ Ampl = 20V, 1 MHz (current 0.26A), locked up
about 5E-11A at FC0
two sparks observed
source +4.5V, 2nd Rep 0V: RFQ offs =0V, RFQ Ampl = 20V, 1 MHz (current 0.26A), locked up
about 3E-10A at FC0
source -5.5V, 2nd Rep 0V: RFQ offs =0V, RFQ Ampl = 20V, 1 MHz (current 0.26A), locked up - done again since not sure if the restore of the tune was done properly for this
about 4E-11A at FC0
done, source +4.5V, 2nd Rep +12V: RFQ offs =0V, RFQ Ampl = 20V, 1 MHz (current 0.26A), locked up
about 3E-10A at FC0
1 spark during HV ramping
done, source +4.5V, 2nd Rep&exit +12V: RFQ offs =+12V, RFQ Ampl = 20V, 1 MHz (current 0.26A), locked up
there is something visible <~ 2E-12A at FC0
reduced current to 550A and leave it over night.
Short summary:
suppression possible but RFQ has to be shifted, the "only source shift" mode yielded a worse suppression than expected - unfortunately no mass scans have been possible, which would help to get some information on possible effects
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