Difference between revisions of "CPP and NPP Readiness Review"

Revision as of 12:30, 1 December 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. We have summarized the preliminary results from cosmic-ray test in EEL126 in Production Testing of MWPCs for CPP (GlueX-doc-53730. 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 low levels electronic noise that is under investigation.

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