Difference between revisions of "CPP and NPP Readiness Review"

Revision as of 15:41, 10 November 2021

Preparations for the CPP and NPP Readiness Review

• Goal: Complete Readiness Review in time to schedule experiment in 2022
• Media:Coarse Acc Schedule 2021.pdf

Planning for Experiment

• Procedures for Experiments

Outline Presentations (February 10, 2021)

• Charge

• https://bluejeans.com/195964581 Bluejeans connection for Open Session

• Reviewers:
  • Stepan Stepanyan (chair+muon detector)
  • Alexandre Cansonne (Trigger)
  • Brad Sawatzky (Tracking System -MWPC)
  • Chris Keith (Target)
  • Robin Wines (Installation)
  • Mikhail Kostin (RadCon)
  • Edy Nissen (Beamline)
  • Javier Gomez (Observer)
  • Ed Folts (Observer)

• Agenda
  • 08:15-08:45 Executive session
  • 08:45-09:35 (30+20) Overview of Experiment and Setup (Charges: 1, 2. 5, 8) -- Rory Miskimen
  • 09:35-10:25 (30+20) Engineering Design, Fabrication, Operation and Installation of CPP Hardware (Charges: 2, 3, 4) -- Tim Whitlatch
  • 10:25-10:45 Coffee break
  • 10:45-11:15 (20+10) Project implementation, resources and schedule (Charges: 3, 6, 7, 9) -- Elton Smith
  • 11:15-14:30 Lunch and Executive Session
  • 14:30 Closeout

Report and Response

Report

• ERR Final Report, Feb 23, 2021

Response 1

• Point-by-point Response
• Timelines and Responsibilities
• Fabrication and Performance of the MWPC GlueX-doc-5080

Comments to Response 1

• ERR Committee comments to response 1

Response 2

1. MWPC Efficiency
   • Response to parts A, B and C
2. Schedule Status
   • CPP-NPP Schedule Status 5/11/2021. The following two references show that the new hdgeant4 simulation is operational and working:
   • Log Entry 3876633 Histogram of muon hits from hdgeant4 simulation.
   • Tracking / extrapolation to MWPCs Preliminary studies of extrapolation of FDC tracks to MWPCs

Comments to Response 2

• ERR Committee comments to response 2

Response 3

1. Preliminary results from cosmic-ray test in EEL126. The CPP experiment requires six MWPCs and we have six chambers that deliver excellent performance in the cosmic-ray setup in the EEL. The estimates of the efficiency are of the order of 99.7% or greater over a broad range of voltage and/or software thresholds. Two spare MWPCs (Frodo and Galadriel) exhibit electronic noise that is under investigation.
   • Efficiency summary for Arwen and Denethor (retest)
   • Efficiency summaries for all chambers
   • Arwen R188 analysis and voltage scan
   • Bilbo R166 and Celeborn R169 analysis
   • Denethor analysis R184
   • Eowyn analysis R171
   • Frodo analysis R175
   • Galadriel analysis R157

Additions to Standard Equipment

The major modifications required to operate the experiment are the following

• Design, fabrication and installation of the muon detector
  • Multi-wire proportional chambers
  • Modifications to the downstream platform, support structure and iron absorbers
• New (mono-isotopic) solid Pb target
• Charged-particle trigger based on the time-of-flight detectors
• Move tagger microscope to cover 6 GeV coherent peak

Documentation for Review

1. PAC Documents
   • CPP Jeopardy Presentation PAC 48 September 24, 2020
   • CPP Jeopardy Update PAC 48 June 22, 2020
   • NPP Presentation to PAC 48 August 13, 2020
2. TOF Trigger
   • TOF trigger rate study with the upgraded TOF detector and optional lead shielding
   • TOF trigger pattern for CPP experiment
3. Draft Documents
   • THA MWPC
   • THA FCAL Dark Room
   • OSP for MWPC
   • COO
   • ERG
   • ESAD, ESAD version with muon detector
   • RSAD
   • FCAL Dark Room Procedure
4. Released Drawings
5. Installation Schedule
6. Wiki Pages for further reference
   • CPP wiki page
   • NPP wiki page