Summary 2/3/20

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MECHANICAL DESIGN (Paulo, Steve L.)

  • No significant changes in design since ERR
  • Action item: steps towards assembly and commissioning:
  • Check and document interference for all kinematics again including those for the DVCS experiment from Hall A
  • dDocument time estimates for configuration changes, e.g. moving the NPS from one side to the other, rotating the magnet
  • Identify and document items that can be done in advance of installation, e.g. welding the plates on the SHMS (requires finishing the drawings)

MAGNET (Charles)

  • Magnet was energized to 25% (250A) of the max current
  • Simulations have shown that for DVCS/pi0 it would be sufficient to energize the magnet to 2/3 of the max current - this allows to relax the requirements for a full current test. However, note that for RCS need the full field to deflect electrons
  • Running at lower current also has an impact on the HMS optics design
  • Action Items:
  • Check measurements vs 3D calculations
  • Make table of fringe fields vs. current and check simulations for physics impact
  • Decide on what fraction of maximum current to run the magnet for first run group – will also impact HMS optics

DETECTOR FRAME OVERVIEW (Emmanuel)

  • Final design
  • support structure has been built
  • new shielding design was adapted
  • no change in cooling strategy
  • PMT assembly concept ready (see a prototype here)
  • attachment PMT-crystal through optical grease - some rotation is possible, note that it is important to check alignment from the front during installation
  • HV and LEMO connectors on top of the box as before
  • Parts manufacturing
  • Large fraction has been received or is expected to arrive in mid-February; some delay in parts related to new shielding strategy, but still expect delivery of frame by August 2020
  • Optical fibers: 28mm diameter quartz fiber
  • Cut and polishing will be done in Orsay
  • Carbon holders
  • radiation hardness was tested in Hall C near the scattering chamber (see log entries 3687981 and 3669952)- the samples are radiation hard
  • can support the crystals - note that the crystals, in particular the bottom row, also support themselves
  • Infrastructure
  • Temperature sensors (63 front + 63 side), PT 100 Ohm
  • goal is to measure crystal temperature, no feedback, no interlock, but should be in alarm handler
  • radiation concerns when operating in the hall
  • Chiller - radiation concerns
  • heat exchanger air flow - optimized, not much overall since many cables
  • Action Items
  • Finalize quotes, e.g. for quartz and mu metal
  • Implement the new magnetic shielding design – includes ordering all parts (honeycomb, mu metal, iron shielding, aluminum plates, supports), assembly, and testing
  • Send temperature control information to Brad to figure out readout (include in alarm handler, but no feedback, no interlock)
  • Determine needs for operating chiller in Hall C, e.g. shielding, order spares
  • Send crystal wrapping material for pre-shaping to JLab
  • Check uniformity of fiber transmittance after cut/polish
  • Test for LED system cross talk for adjacent PMTs
  • Check if Kapton tape should be used around the PMT to insulate it from the mu metal cylinder
  • Determine if there is a way to monitor thickness increase of crystals when adding tape

DETECTOR BOX (Laurent)

  • Built and assembled
  • Discussion about mounting holes to install the box on the JLab fixture (once installed, all lifting will be done from the JLab fixture)
  • Action items:
  • re-calculate center of gravity
  • decide on how to attach NPS frame to JLab fixture - bolts, weld?

PCB, CABLES, ELECTRICAL (Thi)

  • Interface bases, HV-LED - Fischer connectors
  • HV cables (Samtec)
  • tested wires in each cable to detect short circuits, bad connections
  • tested HV on each cable
  • Anode cables - waiting for LEMO connector, SMA side done
  • Systec + LPC
  • LED cables tested in similar way as HV cables
  • developed special tool for these tests

CRYSTALS (Vladimir)

  • Have been receiving crystals from CRYTUR and characterizing - 100% acceptance
  • September 2020: expect to have ~630 crystals
  • April 2021: expect to have 900 CRYTUR crystals
  • rate of production is 30-40 crystals/month with PANDA or other production ongoing - most recently 30 pieces/month
  • fastest production rate was 250 crystals/3 months
  • slowest production rate is anticipated to be 15-20 crystals/month, e.g. with large PANDA order in parallel
  • Have 460 SICCAS crystals on site
  • 700 PMTs are on site
  • Action items:
  • Send 10 CRYTUR crystals and full-size glass to Orsay for irradiation tests
  • Decide on final stacking configuration – current nominal configuration is two outer layers SICCAS, rest CRYTUR
  • Check with CRYTUR if possible to expedite crystal production of outstanding 250 crystals with an early FY21 procurement

HV DIVIDERS (Fernando, Julie)

  • All dividers are assembled at OU and awaiting decision on specifics of the modification
  • Nonlinearity of bypassed amplifier is 1-2% depending on pre-amp gain (0.5, 1, 2 V to match fADC)
  • gain 3: nonlinearity increases to ~4% (2 V) and ~11% (0.5V)
  • Reasonably good linearity at gain 3 - still analyzing anode current
  • Action items:
  • Check on the method to measure anode current, e.g. in Hall C
  • Further analyze existing anode current data from Hall D
  • Decide on final HV divider gain
  • Determine need for additional resources and/or funding beyond what was planned

DAQ, ELECTRONICS, HV (Brad)

  • Support HW
  • Patch panel, NPS-DAQ cabling design near completion
  • HV crate procurement complete
  • HV cables/connectors - some work needed here
  • Initially recommended HV connectors are very expensive - alternative from CAEN might be a good solution
  • Slow controls
  • LED controls (starting point will be DIRC LED pulser) - DSG+FE, specs submitted and confirmed
  • Integrated NPS controls based on ComCAL GUI - confirm/schedule with DSG
  • Brad is point of contact for NPS slow controls
  • DAQ HW Procurement - ongoing
  • Computer hardware, network upgrade ongoing
  • Single board computers (5+1)
  • VTP boards (5+1)
  • VXS crates (2/5 in hand, purchase 3)
  • FADC250 available, but must reserve when dates for run known
  • DAQ Firmware - requires new development
  • request submitted and confirmed (FE group) - requires 3.5 person months
  • Analyzer Hall C modifications
  • decoding
  • NPS specific
  • Action Items:
  • Complete procurements (computer hardware, VXS crates, modules, patch panel hardware)
  • HV cabling/connectors: count available channels from, e.g. BigCAL (should be ~1700) and decide on type of connectors to procure
  • Work with designers on cable runs and cable motion strategy
  • Check with designers on roof block modification for feedthrough HV cabling
  • Develop DAQ firmware (VTP, F250, TI/TM, CODA ROC driver) – FE/DAQ group
  • Develop LED control system (HW interface, firmware+SW) – FE/DAQ group
  • Confirm with DSG the development of slow control SW (start from Comcal GUI, HV, temp display, calo protection)
  • Start Analyzer development (multi-block decoding, high level NPS class integration)

PATCH PANEL, CABLING, LCW (Joe)

  • LCW and power supply available for currents ~800A - should be ok for NPS full power
  • HV channels - feedthrough instead of patch panel
  • need to check on roofblock electronics hut details - check with designers


NPS ASSEMBLY DISCUSSION (all)

  • Target date to start assembly is: October 2020
  • Frame is expected to arrive at JLab by beginning of September
  • Discussion about pre-assembly preparations
  • mu metal tubes will be assembled in Orsay
  • PMT+divider assembly done at JLab
  • check if possible to install kapton tape around PMT to insulate it from the mu metal
  • pre-shaping crystal wrapper - for FCAL use oven at 100 degC for 20 min and special tool
  • how to monitor thickness increase of crystal dimension when adding tape to make it fit in the frame
  • need space for assembly and storage of frame - prefer climate controlled
  • need at least one fully instrumented crate to test out things before end of year
  • Discussion about crystal stacking
  • nominal: partial stacking - with outer two layers SICCAS (may change depending on communication with CRYTUR in May 2020 - see next point)
  • Check with CRYTUR if production of remaining 250 crystals can be expedited with early FY21 procurement - ideally would like all crystals by June 2021
  • Discussion about coordination of resources for stacking
  • DAQ testout - by end of the year full create with VTP
  • readout seems straightforward
  • cables
  • computer, disk space
  • HV Divider modification - decide by summer
  • need time estimate for modification - need all modified dividers by end of year 2020
  • additional resources needed?

SIMULATIONS AND RECONSTRUCTION SOFTWARE (Ho San)

  • Full NPS model with carbon frame implemented
  • still to be done: latest on mu metal shielding
  • Energy resolution: <1% constant term, dominated by electronics, noise
  • Anode current estimate seems high
  • check on a method to measure it
  • Iron shielding around beam pipe
  • not specifically needed for NPS - mainly to reduce fields around the beam line
  • Reconstruction software is ready
  • Action Items:
  • Include mu metal shielding details in simulation
  • Check impact of different fringe fields on physics

CALIBRATIONS (Jacob)

  • Studied possible calibration with elastics and found a set of kinematics - need to optimize further
  • Action Items:
  • Continue studies of calibration methods
  • Elastics: determine where the proton goes with electron fixed – can one place an additional small detector?


NPS EXPERIMENTS - TCS (Marie)

  • Experiment getting ready to re-present to PAC to remove the condition for full approval
  • Main question is still the proton detection - can the low momentum protons be measured after the high magnetic field?


Additional Notes by Charles Hyde

•Summarize full to-do list in hall, and estimated time to completion
•Estimate time for configuration changes during beam running
•Document interferences between NPS, BeamLine, HMS
•Kinematic configurations are dynamic (addition of beam time from E12-06-114, uncertain beam energy in 2022)
• How is the Calorimeter, Cabling, etc assembled
•Do we run Sweep Magnet at full power or ~30%?
•DVCS, pi0 maybe OK at 30% power
•Future RCS will require full power (with NPS on outer side of SHMS)
• Do we mix-and-match Crytur and SICCAS crystals?
•Order ~200 more crystals from Crytur and wait ~1year for full delivery?