Run Coordination Meetings:Fall2017 Spring2018 Run

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Meeting General Agenda

Connect Information

To connect from the outside by phone please do the following

1.) To join via a Web Browser, go to the page [1] https://bluejeans.com/660743227.

2.) To join via Polycom room system go to the IP Address: 199.48.152.152 (bjn.vc) and enter the meeting ID: 660743227.

3.) To join via phone, use one of the following numbers and the Conference ID: 660743227.

4.) The moderator code is 8394

Dial Either +1 408 740 7256 or +1 888 240 2560 for US or Canada

Specific instructions for connecting from JLab's Hall D conference room:

  • Turn polycon on if necessary (do it before turning the computer on)
  • With the polycon, place a call at 199.48.152.152
  • Press # to enable the polycom keypad, then enter the meeting id: 660743227 and #
  • You may have to unmute the microphone: #*4
  • Turn the computer on if needed

Beam and Hall configuration

  • Beam energy expected: 11.640 GeV (Same value as Fall 2016 and Spring 2017).
  • Solenoid on at 1350A. Any field changes should be avoided if possible.
  • CW Beam current:
    • Range: 1 nA-1.5 μA. 250 MHz frequency.
    • Standard production running expected at ~200 nA on 4·10-4 R.L. radiator.
    • RSAD limit for most of the run, excluding high intensity tests: 250 nA on 4·10-4 R.L. radiator.
  • FFB on or Position Slow Lock on (FFB doesn't operate below 50nA).
  • Radiators:
    • Goniometer diamond radiators:
      • JD70-100 (58 μm - 4.8·10-4 R.L., 7×7 mm²) - new crystal - excellent rocking curve
      • JD70-105 (47 μm - 3.9·10-4 R.L., 7×7 mm²) - new crystal - good rocking curve
      • JD70-104 (17 μm - 1.4·10-4 R.L., 7×7 mm²) - new crystal - wider rocking curve - marginally usable
    • We also have one 40 μm Al radiator.
    • Amorphous
      • 1.64 µm Al (1.86·10-5 R.L., see study)
      • 10 µm Al (11.2·10-5 R.L.)
      • 30 µm Al (33.7·10-5 R.L.)
  • Tagger quadrupole on (-4.2 A).
  • Collimator hole: Both 5 mm diameter and 3.4 mm diameter. Default running: 5.0 mm

General Information

This document describes the run plan for the Hall D Fall 2017 and Spring 2018 run.

  • Schedule for the run:
  1. Nov. 27th-Dec. 1st: Electron beam restoration
  2. Dec. 1st-Dec. 21st: Hall D Fall run.
  3. Dec. 21st-Jan. 8th: Xmas break. (Solenoid will be ramped down but kept cool)
  4. Jan. 5th-Jan. 11th: Electron beam restoration
  5. Jan. 12th-Mar. 23rd: Hall D Spring run.
  1. Every Tuesdays: 12h of beam study. Every Thursdays, if necessary: 8h of RF recovery.
  • Accelerator overall plan and priorities:
  1. Deliver physics beam to 4 halls.


  • Expected Staffing and responsibilities:
    • The Run Coordinator oversees the commissioning:
      • Nov. 27th-Dec. 1st, 5 days: A. Deur (accelerator restoration)
      • Dec. 1st-Dec. 21st, 20 days: A. Deur
      • Xmas break.
      • Jan. 5th-Jan. 11th, 7 days: A. Deur (accelerator restoration)
      • Jan. 12th-Jan. 24th, 12 days: A. Deur
      • Jan. 24th-Jan. 31st, 7 days: Sasha Ostrovidov
      • Jan. 31st-Feb. 7th, 7 days: Justin Stevens
      • Feb. 7th-Feb. 14th, 7 days: Mark Dalton
      • Feb. 14th-Feb. 21st, 7 days: Alex Barnes
      • Feb. 21st-Feb. 28th, 7 days: Zisis Papandreou
      • Feb. 28th-March 7th, 8 days: Cristiano Fanelli
      • March 7th-March 14th, 7 days: Richard Jones (accelerator down for repairs)
      • March 14th-March 28th, 14 days: A. Deur (accelerator down for repairs)
      • March 28th-Apr. 4th, 7 days: Naomi Jarvis
      • Apr. 4th-Apr. 11th, 7 days: David lawrence
      • Apr. 11th-Apr. 18th, 7 days: Colin Gleason
      • Apr. 18th-Apr. 25th, 7 days: Mark Dalton
      • Apr. 25th-May. 2nd, 7 days: Stuart Fegan
      • May. 2nd-May. 6th, 4 days: Alexander Austregesilo



Runplan

  1. Verify electron beam quality and establish photon beam (assume 1 day).
    • Ion Chambers trip threshold must be set using Al. radiators
    • Tune electron beam with radiator retracted
      • Radiator (amorphous and diamond) must be retracted. Collimator should be in blocking position.
        • Typical levels are (for radiator retracted, collimator fully blocking, electron beam current 50 nA)
          • RAD102_P1 ~ 10 mrad/hr (tagger area, gammas, between tagger and dump)
          • RAD102_P2 ~ 0.1 mrad/hr (tagger area, gammas, on the goniometer).
          • RAD102_P3 ~ 0.3 mrem/hr (tagger area, neutrons, near electronics racks)
          • RAD508_P1 < 0.1 mrad/hr (collimator cave, gammas).
          • RAD508_P2 ~ 0. mrad/hr (Hall. Neutrons).
      • Hall D tagger CARMS, Ion Chamber and BLM threshold for beam trips should not be changed without approval of Hall D leader.
    • Establish good photon beam
    • Make sure tagger quadrupole is on and at -4.2 A. (It can be turned on only once the Hall is n power/beam permit.)
      • Insert 2*10-5 RL radiator. Call MCC and ask to mask the FSD and turn off beam each time a radiator is moved
        • Typical levels are (for 2×10-5 radiator, electron beam current 50 nA)
          • RAD102_P1= 35 mrad/hr (tagger area, gammas, between tagger and dump)
          • RAD102_P2= 0.5 mrad/hr (tagger area, gammas, on the goniometer)
          • RAD102_P3= ~2 mrem/hr (tagger area, neutrons, near electronics racks)
          • RAD508_P1= ~10 mrad/hr (collimator cave, gammas).
          • RAD508_P2 < ~ 0. mrad/hr (Hall. Neutrons).
    • Verify beam position and envelope.
      • Ask MCC for 5C11 and 5C11B HARP. Then do our radiator HARP scan, see instruction. If it looks good, proceed to next step. Otherwise, inform MCC.
      • Insert profiler (no need for masking FSD when an object is inserted in the photon line), run with 10×10-4 radiator and 50 nA. Beam on the profiler should be at x=0.0±0.5cm; y=0.0±0.5cm. If not, inform MCC.
    • Radiation level study (1h):
      • Run 5 min without radiator (Call MCC and ask to mask the FSD each time the radiator is moved). Beam current: 50nA. Repeat at 100 nA and 200 nA
      • Run 5 min with the 10-4 radiator (Call MCC). Beam current: 50nA. Repeat at 100 nA and 200 nA
      • Run 3 min with the 3*10-4 radiator (Call MCC). Beam current: 50nA. Repeat at 100 nA and 200 nA
    • Microscope yield study (row-by-row scan). (Richard/Jim McIntyre/Alex Barnes, 1h)
      • Call Richard Jones 20 min before the start of this task. Call Alex Somov to set-up the PS trigger.
      • Insert 5mm collimator.
      • Procedure to follow
      • Any type of beam quality will do.
      • 10-4 radiator, 10-3 convertor, 80 nA beam current.
    • Active Collimator calibration. (20 + 20 mins). Call Hovanes.
      • re-Insert the 10-4 radiator (Call MCC). Use about 100 nA beam current. This will provide the Act. Col. nominal positions for its high gain values.
      • Determine maximum photon beam transmission by doing 2D scans using the collimator x/y motions (Hovanes. 1h)
      • Repeat procedure with 2*10-5 radiator (Call MCC) and 50 nA beam current. This will provide the Act. Col. nominal positions for its low gain values.
      • Record on the white board what is the beam position on 5C11b and Active Collimator for optimal photon transmission, both for low and high Act. Col. gain.
      • Until Hovanes determines to optimal 5C11b and Active Collimator position, keep profiler in and beam locked (MCC's duty) on the nominal 5C11b and x=0,y=0 profiler position. Once Active Collimator nominal beam position is known, retract profiler and lock the beam (MCC) on the active collimator.
  2. Detector and beamline checkout.
  3. Realign 60 μm diamond (JD70-100) for the 4 polarization configuration (Hovanes, Paul Mattione. 16h/diamond).
  4. Beam background measurements for PRad target TAC runs. (A. Deur/Hovanes/A. Somov) 10-250nA, no radiator, TAC in, target full. 1h. Several runs throughout Fall/Spring run periods.
  5. Straight track run (16h, nominally at the end of the Fall run. Otherwise, end of Spring run) (Lubomir)
    • Ramp down solenoid magnet (8h)
    • Take straight track run data (Lubomir)
  6. Gluex data production
    • Log in run information in the shift summary (make a run list). For each production run, log useful comments on DAQ comment window, see [2]
    • Tagger quadrupole on
    • Harp scans once a day: 15 min.
    • If commissioning and analysis were successful, once a day (?), a beam envelope measurement by rastering on Act. Col. ??min
    • Empty target run every 3 week (2h: 1- h to empty/fill back the target, 1h running). Standard production current.
    • Long mode 10 min run. Once a week (20 min).
    • Amorphous run. Every set of 4 diam. orientation runs. 1h Standard production current. Time to switch from pol. to unpol.: 10min. time to switch from unpol. to pol.: 30min.
    • TAC commissioning, systematic studies and runs. (Hovanes, Alex Somov 2 days.)
      • V-wire commissioning.
      • Move around the collimator with 1mm plug to see effect on TAC. Do 4 different positions.
      • Check effect of material on γ-beam path on TAC: for ex. fill the target (30 min to fill or empty target).
      • Do a TAC run without solenoid field to test GEANT TAC simulation in simpler conditions. (To be done around straight-track runs).
    • Physics production data with diamonds and 5 mm hole. Ratio of para./transverse/45o/135o data:25/25/25/25. 2h runs and no more, as it may be hard to correct for calibration drifts. Switch polarization every run. Time to switch: 10min. DAQ start run overhead: 3min.
      • Luminosity:
        • Run at about 200 nA (for 60 μm diamond JD70-100).
  7. Parasitic muon chamber
  8. Parasitic TRD run
  9. List of tasks to be done without solenoid field

Hall D situation room (current run plan)

Hall D counting room white board

Runplan time charts

Tasks achieved during Fall 2017:

Progress fall17.jpg

Fall 2017 results

Spring 2018 time chart:

Spring18 week1.jpg

Spring 2018 commissioning/run time chart. Week 1.
The horizontal scale is the time during which beam is available (in other words, it would be the real time with 100% of beam efficiency).
The task time estimates given on the plot have 100% contingency.

Spring18 week2.jpg

Run time chart. Week 2.

Spring18 week3.jpg

Run time chart. Week 3.

Spring18 week4.jpg

Run time chart. Week 4.

Spring18 week5.jpg

Run time chart. Week 5.

Spring18 week6.jpg

Run time chart. Week 6.

Spring18 week7.jpg

Run time chart. Week 7.

Spring18 week8.jpg

Run time chart. Week 8.

Run time chart. Week 9. CEBAF down for repair

Run time chart. Week 10. CEBAF down for repair Run time chart. Week 11. CEBAF down for repair/RF separator problem

Spring18 week12.jpg

Run time chart. Week 12.

Spring18 week13.jpg

Run time chart. Week 13.

Spring18 week14.jpg

Run time chart. Week 14.

Spring18 week15.jpg

Run time chart. Week 15.

Spring18 week16.jpg

Run time chart. Week 16.

Spring18 week17.jpg

Run time chart. Week 17.


Accelerator status

Hot Checkout

  1. Hot Check OUT Status 100% ready ; 0% checked ; 0% not ready

Readiness for Fall 17-Spring18 run

(This section is commented out for clarity)