GTS meeting 5 31 16

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  • We ran beam for RadCon Surveys
    • 300keV DC beam 1.6 uA on the Dump
    • GTS 1p6 uA 300keV beam at Dump.jpg
    • And yes...with the multi-alkali photocathode the current has increased to 1.7 uA after one hr of running beam.
    • GTS 1p7 uA 300keV beam at dump..after running for 1 hr.jpg
    • The laser variable attenuator is not working, so we started to steer beam through the viewers, but seems the beam is too intense.
    • Yan steered the beam to the dump, which reportes 1.6 micro-Amps! This made the vacuum increase from 1E-11 Amps, to about 1E-6 Amps when the beam was at each viewer.
    • Shukui has a plan to have full control of the laser output power and variable attenuator. It involves setting up a PC in the GTS, and a new ThorLabs variable attenuator wheel.
    • William Lu is working on getting the beam dump Kethley signal to EPICS
    • First we ran at 275kV, then at 300kV, stable!
    • See this link for the Log entry
    • Oh! The electricians wired up a GTS enclosure light switch! it works!
  • What do we do next!
    • Yan points out that emittance measurements will be very difficult, if not impossible, because the solenoid is not counter wound.
    • Want a camera on top viewport to look at laser spot on the cathode
    • Align beam on solenoids, perhaps need to physical adjust the first solenoid mount.
    • Need to write a beam measurements and cathode lifetime studies plan.
  • Before going to higher beam current, Need to short out the conditioning resistor.
    • At 1 micro-Amps beam current, the voltage drop on the cathode is already 0.3 kV, at 100 micro-Amps it will be 30 kV!!! because the resistor is 300 Mega-Ohms.
    • We should let Shukui take the time to give us full control of the laser power and attenuator.
  • What else?....