Difference between revisions of "Run Group C"
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== '''IMPORTANT SHIFT NOTES: '''== | == '''IMPORTANT SHIFT NOTES: '''== | ||
− | * '''In case of medical or fire emergency, call 9-911 from a LANDLINE phone in the Counting House''' | + | * '''In case of medical or fire emergency, call 9-911 from a LANDLINE phone in the Counting House''' |
− | * If you have symptoms or a positive '''COVID''' test, do NOT come to your shift - instead, inform the PDL and the RC and JLab medical services immediately so that replacements can be arranged. | + | * If you have symptoms or a positive '''COVID''' test, do NOT come to your shift - instead, inform the PDL and the RC and JLab medical services immediately so that replacements can be arranged. |
− | * If needed, worker shifts can also be taken from off-site - again, inform the PDL and RC. Also, make sure that you follow the instructions under the "Worker Shift" Tab - you need some lead time to set up! | + | * If needed, worker shifts can also be taken from off-site - again, inform the PDL and RC. Also, make sure that you follow the instructions under the "Worker Shift" Tab - you need some lead time to set up! |
+ | == '''Short Term Schedule''' == | ||
+ | |||
+ | * Run duration: 100M events or 4 hours, whichever comes first. | ||
+ | * Current: 8 nA. | ||
+ | |||
+ | Tuesday-Owl (10/4/2022) | ||
+ | * Beam has started at around midnight (11.40 PM 10/3/2022). Start data taking on Carbon with HWP OUT. Use PROD66 Configuration. | ||
+ | * Sometime around 4.30 AM (10/4/2022) Change the HWP to IN. Use PROD66 Configuration. Don't forget to put comment (Carbon HWP IN). | ||
+ | * Run the data taking on HWP IN until 8.45 AM (10/4/2022) | ||
+ | |||
+ | Wednesday-Owl (10/5/2022) | ||
+ | * At 8.45 am 10/4/2022 ask MCC for controlled access because Radcon and Target group will come at 9 am to swap the target to NH3 | ||
+ | * After Target group has finished installing NH3 and polarizing the target (presumably positive polarization) take data with PROD66_PIN configuration (please put comment: NH3 HWP IN PIN) | ||
+ | * Stop the run after collecting at least 20 Millions events with PROD66_PIN configuration on NH3 (Positive IN) | ||
+ | * Start the run with normal PROD66 configuration | ||
+ | * Stop and ReRun after 100 Million events OR after 4 hours | ||
+ | * Continue the cycle until the next day or further notice | ||
== <font color=blue>''' Run Plan: September - December 2022 '''</font> == | == <font color=blue>''' Run Plan: September - December 2022 '''</font> == | ||
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* Whenever you change the raster offset, ask MCC to NOT correct whatever happens on 2H01. Note new 2H01 values and inform MCC of the new 2H01 x and y values - then they can keep the beam at those positions. | * Whenever you change the raster offset, ask MCC to NOT correct whatever happens on 2H01. Note new 2H01 values and inform MCC of the new 2H01 x and y values - then they can keep the beam at those positions. | ||
* It should no longer be necessary to quit RasterMon at the end of each run and restart after a successful "Go" for the next run, but if DAQ crashes, you SHOULD follow these steps, and the same for mon12. '''Make sure there is ONLY ONE INSTANCE of RasterMon AND mon12 running anywhere in the Counting House.''' | * It should no longer be necessary to quit RasterMon at the end of each run and restart after a successful "Go" for the next run, but if DAQ crashes, you SHOULD follow these steps, and the same for mon12. '''Make sure there is ONLY ONE INSTANCE of RasterMon AND mon12 running anywhere in the Counting House.''' | ||
− | * REMINDER FOR ALL EXPERTS: Please take care to fill out the BTA carefully and correctly. The info from EPICS is not always correct, e.g. when taking data with low beam current, you should change the ABU to the proper (estimated) time by hand instead of simply accepting "0" if you are actually taking data | + | * REMINDER FOR ALL EXPERTS: Please take care to fill out the BTA carefully and correctly. The info from EPICS is not always correct, e.g. when taking data with low beam current, you should change the ABU to the proper (estimated) time by hand instead of simply accepting "0" if you are actually taking data. |
* '''After each change of running conditions''' (target type, luminosity): Please check that the trigger alarms (on rate/nA) are set appropriately and change them as needed. | * '''After each change of running conditions''' (target type, luminosity): Please check that the trigger alarms (on rate/nA) are set appropriately and change them as needed. | ||
* <font color=blue> Whenever the target type or polarization direction changes, or the half-wave plate status changes, make sure to enter a comment in the BEGIN RUN / END RUN comment box. </font> | * <font color=blue> Whenever the target type or polarization direction changes, or the half-wave plate status changes, make sure to enter a comment in the BEGIN RUN / END RUN comment box. </font> | ||
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* The Faraday Cup power limit for the continuous operation was lifted up to 1 kW. For the remainder of the RGC the beam blocker should not be used https://logbooks.jlab.org/entry/4047791 </font> | * The Faraday Cup power limit for the continuous operation was lifted up to 1 kW. For the remainder of the RGC the beam blocker should not be used https://logbooks.jlab.org/entry/4047791 </font> | ||
+ | === 5-pass (10.55 GeV) Running conditions === | ||
+ | * Torus at 100% current, inbending electrons. Setpoint = +3770 A (Readback = +3766 A) | ||
+ | * Solenoid setpoint +2417.5 A | ||
+ | <!-- | ||
=== SHORT RANGE PLAN (last update September 27, 2022) === | === SHORT RANGE PLAN (last update September 27, 2022) === | ||
− | + | * Bring beam back to the hall on the tagger dump, follow standard proceedings. Do harp scans (10nA). Afterward do Moller run with 1/2 wave plate OUT. | |
− | + | * Then establish beam to FC. Raster must be ON. Check if beam goes cleanly through. You might need to adjust raster, check with RC and/or beamline expert. | |
− | * Then establish beam to FC. Raster must be ON. Check if beam goes cleanly through. You might need to adjust raster, check with RC and/or beamline expert. | ||
* Production data on NH3 with NEGATIVE polarization with 6nA beam. First run with PROD66_PIN config. afterwards PROD66 config. | * Production data on NH3 with NEGATIVE polarization with 6nA beam. First run with PROD66_PIN config. afterwards PROD66 config. | ||
* We will continue with NH3 until the Maintenance Day (Thursday 9/29). Change HWP from OUT to IN during Swing shift today (Wednesday 9/28). | * We will continue with NH3 until the Maintenance Day (Thursday 9/29). Change HWP from OUT to IN during Swing shift today (Wednesday 9/28). | ||
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* We should reverse the target polarization after every TWO days of good data taking. So the sequence is "1 day on ammonia, swap HWP, one day on ammonia, flip target polarization, one day on ammonia, swap HWP, one day on ammonia". ND3 may have to be annealed between target polarization changes. | * We should reverse the target polarization after every TWO days of good data taking. So the sequence is "1 day on ammonia, swap HWP, one day on ammonia, flip target polarization, one day on ammonia, swap HWP, one day on ammonia". ND3 may have to be annealed between target polarization changes. | ||
* Do a RICH Recovery procedure once a day during day shift (in-between runs) if everything is okay. If a RICH problem occurs, you might have to do the RICH Recovery procedure. If RICH recovery procedure fails to fix the problem the first time, try again one more time. If the second RICH recovery attempt does not fix the problem call RICH expert and keep taking data. | * Do a RICH Recovery procedure once a day during day shift (in-between runs) if everything is okay. If a RICH problem occurs, you might have to do the RICH Recovery procedure. If RICH recovery procedure fails to fix the problem the first time, try again one more time. If the second RICH recovery attempt does not fix the problem call RICH expert and keep taking data. | ||
− | + | --> | |
− | + | <!-- | |
− | + | === <font color=green>Start-up after Configuration Change 3-sept</font> === | |
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− | <!-- === <font color=green>Start-up after Configuration Change 3-sept</font> === | ||
# First target: 2 cm diameter C target (+ LHe) - '''DONE''' | # First target: 2 cm diameter C target (+ LHe) - '''DONE''' | ||
## Once beam is available, tune it on the tagger dump. | ## Once beam is available, tune it on the tagger dump. | ||
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## Remove ND3 target, anneal, and reinsert. Take baseline, TE, and begin polarizing. | ## Remove ND3 target, anneal, and reinsert. Take baseline, TE, and begin polarizing. | ||
## Start of production data taking on ND3 once beam returns. First move beam slightly more to the left by setting raster x-offset to -0.55 V. Also reduce y-raster Vpp to 3.15 V. Check occupancy vs. raster position (mon12) and rastermon as well as DAQ rates, electron lifetime, beam halo monitor rates and average R1 DC occupancies to see if this improve things.--> | ## Start of production data taking on ND3 once beam returns. First move beam slightly more to the left by setting raster x-offset to -0.55 V. Also reduce y-raster Vpp to 3.15 V. Check occupancy vs. raster position (mon12) and rastermon as well as DAQ rates, electron lifetime, beam halo monitor rates and average R1 DC occupancies to see if this improve things.--> | ||
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<!-- ==== <font color=green> Cold Irradiation Process</font> ==== | <!-- ==== <font color=green> Cold Irradiation Process</font> ==== | ||
In this process we want to add the irradiation of the target by increasing the beam current. For this <font color="red"> <b>CLAS must be off </b></font>.<br /> | In this process we want to add the irradiation of the target by increasing the beam current. For this <font color="red"> <b>CLAS must be off </b></font>.<br /> | ||
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* Irradiate the target for about 16 hours , with this high beam current and raster size. | * Irradiate the target for about 16 hours , with this high beam current and raster size. | ||
* Target must be annealed and polarized to assess effect of this procedure. | * Target must be annealed and polarized to assess effect of this procedure. | ||
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## (NOTE: the beam raster MUST be on at all times, hence you cannot do a harp scan at 2H01). You can temporarily put in the beam viewer to take a look at the profile, but then it has to be taken out. Some of the above is also described in the manuals - Physics-Quality Beam and Performing Møller Runs under “Shift Documentation” tab of the Run Group C run wiki. | ## (NOTE: the beam raster MUST be on at all times, hence you cannot do a harp scan at 2H01). You can temporarily put in the beam viewer to take a look at the profile, but then it has to be taken out. Some of the above is also described in the manuals - Physics-Quality Beam and Performing Møller Runs under “Shift Documentation” tab of the Run Group C run wiki. | ||
# <b> We want to re-do the optimization for the raster settings. </b> Start a run and using both the new mon12 plots created by Raffa, and the FT asymmetry (mon12). Change the raster offset by -0.1 in X and Y and check that the amount of "red areas" are similar for all 6 sectors and no yellow or white, and the FT asymmetry is roughly 0. In the previous reference runs, the beam was too much to the right and too high. (Note that the target is large enough in diameter so that you shouldn’t hit the edge - confirm with your rastermon. Note that whenever you change the raster offset, you will have to observe how 2H01 x and y change, and tell MCC that those are the new values to shoot for. (You can tell them to stop trying to center the beam on 2H01 while you are trying out different offsets - otherwise you might end up working at cross-purpose). | # <b> We want to re-do the optimization for the raster settings. </b> Start a run and using both the new mon12 plots created by Raffa, and the FT asymmetry (mon12). Change the raster offset by -0.1 in X and Y and check that the amount of "red areas" are similar for all 6 sectors and no yellow or white, and the FT asymmetry is roughly 0. In the previous reference runs, the beam was too much to the right and too high. (Note that the target is large enough in diameter so that you shouldn’t hit the edge - confirm with your rastermon. Note that whenever you change the raster offset, you will have to observe how 2H01 x and y change, and tell MCC that those are the new values to shoot for. (You can tell them to stop trying to center the beam on 2H01 while you are trying out different offsets - otherwise you might end up working at cross-purpose). | ||
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# Once the raster is satisfactory, start a long production run. We want at least 50M events. | # Once the raster is satisfactory, start a long production run. We want at least 50M events. | ||
# Depending on the report from the FT (Forward Tagger) analysis, we may go back to doing the 50nA "cold irradiation" process. Check the RC. | # Depending on the report from the FT (Forward Tagger) analysis, we may go back to doing the 50nA "cold irradiation" process. Check the RC. | ||
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--> | --> | ||
<!-- * END EMPTY TARGET RUNNING. Ask target group to install new target (CH2 - check with RC/Sebastian/Target Group). | <!-- * END EMPTY TARGET RUNNING. Ask target group to install new target (CH2 - check with RC/Sebastian/Target Group). | ||
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*** Take production data with standard trigger rgc_300MeV_v1.2_no_DC.trg, PROD 66. | *** Take production data with standard trigger rgc_300MeV_v1.2_no_DC.trg, PROD 66. | ||
--> | --> | ||
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<!-- * Establish optimal compromise between raster size (if possible, 9 mm radius), luminosity (goal: 10 nA = 10^35), and background. | <!-- * Establish optimal compromise between raster size (if possible, 9 mm radius), luminosity (goal: 10 nA = 10^35), and background. | ||
* Run duration 100M events or 4 hours, whichever comes first. | * Run duration 100M events or 4 hours, whichever comes first. | ||
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** Note the automated "RICH Recovery" sequence already confirms RICH4 is up and accepting ssh connections before claiming success. | ** Note the automated "RICH Recovery" sequence already confirms RICH4 is up and accepting ssh connections before claiming success. | ||
** You have to "Cancel->Reset->Configure->Download->Prestart" before starting the next run. | ** You have to "Cancel->Reset->Configure->Download->Prestart" before starting the next run. | ||
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* '''[https://bta.acc.jlab.org Fill out BTA]''' hourly. Click "Load from EPICS" to automatically fill the left side then correct as needed. | * '''[https://bta.acc.jlab.org Fill out BTA]''' hourly. Click "Load from EPICS" to automatically fill the left side then correct as needed. | ||
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'''Make the following log entries ONCE per run''' | '''Make the following log entries ONCE per run''' | ||
* '''Screenshots''': submit to logbook only if you capture the information '''with beam ON''' | * '''Screenshots''': submit to logbook only if you capture the information '''with beam ON''' | ||
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** Beamline Overview, in VNC or [https://hallbopi.jlab.org/webopi3.3/w?opi=beamline/clas12-web.opi Web Browser] | ** Beamline Overview, in VNC or [https://hallbopi.jlab.org/webopi3.3/w?opi=beamline/clas12-web.opi Web Browser] | ||
** CLAS12 Trigger rates and DAQ status | ** CLAS12 Trigger rates and DAQ status |
Revision as of 04:45, 4 October 2022
- Shift Documentation
- Phone Numbers
- Short Term Schedule
- Shift Expert
- Worker Shift
- Monitoring
- Useful Links
Shift ScheduleHall B LogbookESAD, COO, RSAD
Shift ChecklistHot CheckoutBeam Time Accounting
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Manuals
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Procedures |
JLab Logbooks
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NOTE: All NON-JLab numbers MUST be dialed with (757) area code. When calling from a CH landline, dial "9" first. To call from outside, all 4-digit numbers must be preceded by 757-269
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- Note, all non-JLab numbers must be dialed with an area code. When calling from a counting-house landline, dial "9" first.
- To call JLab phones from outside the lab, all 4-digit numbers must be preceded by 757-269
- Click Here to edit Phone Numbers. Note, you then also have to edit the current page to force a refresh.
Click Here to edit Phone Numbers. Note, you then also have to edit the current page to force a refresh.
CLAS12 Run Group C, Summer 2022
Daily RC Meetings at 14:00: CH Room 200C, and on Zoom
Zoom information: Link, Meeting ID: 160 867 4253, Passcode: 786506
Run Coordinator: Zulkaida Akbar
- (9-)757 575-7540
PDL: Eugene Pasyuk
- (9-)757 876-1789 , x6020 office
Run Group Coordinator: Sebastian Kuhn
- (9-)757 639-6640
Run Coordinator and Target Expert Schedule
Longterm Run Plan
IMPORTANT SHIFT NOTES:
* In case of medical or fire emergency, call 9-911 from a LANDLINE phone in the Counting House * If you have symptoms or a positive COVID test, do NOT come to your shift - instead, inform the PDL and the RC and JLab medical services immediately so that replacements can be arranged. * If needed, worker shifts can also be taken from off-site - again, inform the PDL and RC. Also, make sure that you follow the instructions under the "Worker Shift" Tab - you need some lead time to set up!
Short Term Schedule
- Run duration: 100M events or 4 hours, whichever comes first.
- Current: 8 nA.
Tuesday-Owl (10/4/2022)
- Beam has started at around midnight (11.40 PM 10/3/2022). Start data taking on Carbon with HWP OUT. Use PROD66 Configuration.
- Sometime around 4.30 AM (10/4/2022) Change the HWP to IN. Use PROD66 Configuration. Don't forget to put comment (Carbon HWP IN).
- Run the data taking on HWP IN until 8.45 AM (10/4/2022)
Wednesday-Owl (10/5/2022)
- At 8.45 am 10/4/2022 ask MCC for controlled access because Radcon and Target group will come at 9 am to swap the target to NH3
- After Target group has finished installing NH3 and polarizing the target (presumably positive polarization) take data with PROD66_PIN configuration (please put comment: NH3 HWP IN PIN)
- Stop the run after collecting at least 20 Millions events with PROD66_PIN configuration on NH3 (Positive IN)
- Start the run with normal PROD66 configuration
- Stop and ReRun after 100 Million events OR after 4 hours
- Continue the cycle until the next day or further notice
Run Plan: September - December 2022
GENERAL INFORMATION
- Before leaving the hall and going to beam permit check that dome lights, forward carriage lights, and pie tower lights are OFF
- Moller runs should be taken with 8-10 nA.
- We have a new policy NOT to leave the beam viewer in the beam at all times, to avoid damage to electronics, cameras etc. Please REMOVE the beam viewer unless we are actively tuning the beam or calibrating beam position/raster.
- We have a new FSD condition for when the raster is operating:
- IF there is any ammonia sample (NH3 and ND3) in the target, the raster MUST be operating at all times. The Raster FSD must be UNMASKED. Orbit locks MUST be OFF (except for brief moments to restore beam position).
- For beam tuning or other non-rastered beam, the Raster FSD must be MASKED.
- Whenever you change the raster offset, ask MCC to NOT correct whatever happens on 2H01. Note new 2H01 values and inform MCC of the new 2H01 x and y values - then they can keep the beam at those positions.
- It should no longer be necessary to quit RasterMon at the end of each run and restart after a successful "Go" for the next run, but if DAQ crashes, you SHOULD follow these steps, and the same for mon12. Make sure there is ONLY ONE INSTANCE of RasterMon AND mon12 running anywhere in the Counting House.
- REMINDER FOR ALL EXPERTS: Please take care to fill out the BTA carefully and correctly. The info from EPICS is not always correct, e.g. when taking data with low beam current, you should change the ABU to the proper (estimated) time by hand instead of simply accepting "0" if you are actually taking data.
- After each change of running conditions (target type, luminosity): Please check that the trigger alarms (on rate/nA) are set appropriately and change them as needed.
- Whenever the target type or polarization direction changes, or the half-wave plate status changes, make sure to enter a comment in the BEGIN RUN / END RUN comment box.
- Do not change running conditions while a run is ongoing. This includes changing target polarization or HWP, etc.
- The Faraday Cup power limit for the continuous operation was lifted up to 1 kW. For the remainder of the RGC the beam blocker should not be used https://logbooks.jlab.org/entry/4047791
5-pass (10.55 GeV) Running conditions
- Torus at 100% current, inbending electrons. Setpoint = +3770 A (Readback = +3766 A)
- Solenoid setpoint +2417.5 A
DAQ configuration
- Configuration PROD66/PROD66_PIN, trigger file rgc_300MeV_v2.3_Q2_1.5GeV2.trg
- NOTE: UNLESS a RICH problem crashes the DAQ, do NOT interrupt an otherwise smooth run to do a RICH recovery - instead do this in between runs.
- NOTE: BOTH the shift expert AND the shift worker MUST check and reset monitoring histograms at least once every 30-60 minutes to make sure there are no major detector problems.Watch the raster pattern!
- At the end of each run, follow the STANDARD DAQ RESTART SEQUENCE:
- "end run".
- If the run ended correctly and you will run with the same configuration and trigger file, then: "prestart", "go"
- If you are changing configuration (between PROD66 and PROD66_PIN) or trigger file: "cancel", "reset", "configure", "download", "prestart", "go".
- if the run did not end correctly or if any ROCs had to be rebooted:
- Quit ALL running instances of mon12 and rastermon
- "cancel", "reset"
- "configure", "download", "prestart", "go"
- restart mon12 and rastermon
- After each step, make sure it is completed in the Run Control message window. If a ROC has crashed, find which one it is, issue a roc_reboot command ON JUST THAT ROC and try again. Contact the DAQ expert if there are any questions.
References and Standards 19 Sept. 22
Solenoid set-point of 2417.5 A results in read back 2419.57 A and exactly 5.00 T field on center
Raster settings
- x: Vpp = 3.7 V, offset = -0.65 V
- y: Vpp = 3.25 V, offset = -0.10 V
- Fundamental Period = 2 s
- The correct raster calibration constants should be automatically loaded by rastermon - if not, enter them through "Config" by hand:
- f(x) = 0.0104*x + -25.5
- f(y) = -0.0115*y + 24.4
Nominal Beam Positions
- 2H01, X = -1.9 mm, Y = +1.2 mm
- 2C24A, X = -2.0 mm, Y = +0.6 mm
- 2C21A, X = -0.4 mm, Y = +0.6 mm
- Orbit lock on 2C24 and 2H01 ONLY if raster is OFF, otherwise orbit lock on 2C21 and 2C24 (note: this appears as "stopped" on the beam line GUI).
FSD Thresholds
- Upstream: 2000 Hz
- Midstream: 2000 Hz
- Downstream: 100000 Hz (1e5)
- BOM: 1000000 Hz
- 5 ms dwell time
Reference plots and histograms
- Harp Scans for Beam on Faraday Cup, 2H01 [1], more recent scan (3 Sept 2022): [2]
- Harp Scans for Beam on 2C21 [3], more recent scan (3 Sept 2022): [4]
- Harp Scan on Tagger Dump (3 Sept. 2022) [5]
- Monitoring Histograms (18 Sept 2022) [6]
- RasterMon (18 Sept 2022) [7]
Counter rates
- With 6 nA beam, the upstream counters should read zero.
- The Midstream ones should read 0-20 Hz or so.
- Greatly increased rates may indicate bad beam tune or bleed-through from other Halls.
NOTE: BOTH the shift expert AND the shift worker MUST check monitoring histograms at least once every 30 - 60 minutes to make sure there are no major detector problems.
(remote) shift worker: see dedicated Worker Shift tab above. |
For REMOTE Shifts (offsite):
- Zoom for 24-7 communication with counting house: https://jlab-org.zoomgov.com/j/1619881100
- Passcode REQUIRED: 927417
- Remind the expert in the counting house to restart their zoom, if necessary
- Remote VNC connection instructions: https://logbooks.jlab.org/entry/3906039
- All necessary applications should be avaible from the desktop menu (left/right click on the desktop)
- EPICS GUIs should be accessed ONLY via the desktop menu or by running clascss-remote.
- Remote Demonstration Video (150 MB)
Shift Worker Tasks
New: Use the new HBRUN logbook for automated and run-specific entries and screenshots, see https://logbooks.jlab.org/entry/4048698
Make the following log entries ONCE per run
- Screenshots: submit to logbook only if you capture the information with beam ON
- Beamline Overview, in VNC or Web Browser
- CLAS12 Trigger rates and DAQ status
- RGC Polarized Target GUI - under Beamline on CS-Studio
- Helicity-latched trigger GUI - under DAQ in CS-Studio
- Upload monitoring plots to logbook
- Standard spectra (mon12): inspect all all monitoring histograms and carefully compare them to the corresponding reference histograms: reference, current, and 5 most recent runs.
- You can choose a different reference run if you are confident what you are doing, the reference numbers refer to logbook entries.
- Raster Monitoring (use "Log Entry" button on RasterMon screen at bottom-right corner).
- An example of a "decent looking" RasterMon is here: [8]. The x and y distributions should show a smooth dome, without any horns or spikes on it and without the distributions being cut off at the edges.
- Standard spectra (mon12): inspect all all monitoring histograms and carefully compare them to the corresponding reference histograms: reference, current, and 5 most recent runs.
Once per shift:
- Fill the shift checklist
- Log screen shots of RICH temperature and scaler maps. Log in RICH logbook.
Regularly:
- reset & check spectra frequently (every 30 - 60 minutes)
- Some plots in the online mon12 have a choice of histogram sets per sector, select buttons at the bottom of the plot. That means you have to look at all sectors for these histograms.
- The logbook entry shows all histograms.
- Check the life cam of the polarized target run valve for plumes or ice buildup (hallbcam04)
- Make sure you refresh the web page! Its no longer necessary to put a snapshot into the logbook UNLESS something looks suspicious. In THAT case, immediately inform the target expert(s).
- Log the strip charts in time intervals according to the x-axis time span, via right-click on the screen and selecting "Make Elog Entry". Make sure NOT to submit to ELOG.
- Beam current and position strip-charts (CS-Studio -> Beamline -> Strip Charts)
- Helicity Trigger Asymmetry strip-chart (CS-Studio -> Helicity-Latched Trigger GUI Screen -> Menu -> livePlot)
- Example https://logbooks.jlab.org/entry/4041939) (not accessible remotely).
- Select the 2nd variable from bottom (dark green) on the top two strip charts to get a reasonable scale
- You can also see beam charts in the Web Browser: Upstream/Midstream Halo Counters, Downstream Halo Counters, Beam Currents, BPM Positions
Webcams
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Manuals |
Epics on the web |
Live Monitoring Links |
Hall-B
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Accelerator |
ZOOM meetings
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