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Jamaica 11 Jan.8, 2009 Muon Trigger Upgrade at PHENIX RIKEN/RBRC Itaru Nakagawa RIKEN/RBRC Itaru Nakagawa.

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Presentation on theme: "Jamaica 11 Jan.8, 2009 Muon Trigger Upgrade at PHENIX RIKEN/RBRC Itaru Nakagawa RIKEN/RBRC Itaru Nakagawa."— Presentation transcript:

1 WWND @ Jamaica 11 Jan.8, 2009 Muon Trigger Upgrade at PHENIX RIKEN/RBRC Itaru Nakagawa RIKEN/RBRC Itaru Nakagawa

2 Summary ready We are getting very close to be ready for W production Run!! 2

3 3  s=500 GeV @ RHIC  Parity Violation Asymmetry Clean flavor separation w/o fragmentation uncertainty (LO)

4 4 Projected Sensitivity @ PHENIX Full Detector Simulation S/B ~ 3/1 Assumed 300 pb -1 and 1300 pb -1

5 5 5 Current Muon System 1.Muon Tracking Chambers –3 stations of Cathode strip chambers –Each station has multiple planes for redundancy –Slow read out -> No trigger 2.Muon Identifier –5 layers of Iarocci tubes in x and y –80 cm of steel plate absorber (total) –Provides trigger p  > 2 GeV St#1 St#2 St#3 MuTr Same configuration in South MuID   B

6 6 High Momentum Muon Trigger Run11 500 GeV Projection New Trigger Upgrade MuID Trigger Rate 9 MHz 90 kHz σ tot =60mb L=1.5x10 32 cm -2 s -1 BBC  MuID Rejection Power RP~100 Trigger Upgrade RP ~ 45 2 kHz PHENIX Band Width for Muon Required Rejection Power RP tot ~ 4500 1.High Rejection Power 2.High Efficiency 1.High Rejection Power 2.High Efficiency W

7 7 RPC1 RPC3 r=3.40m MuTr (I)2 dedicated trigger Resistive Plate Chambers (RPC) stations (CMS design): ~ 1 degree pitch in  NSF (Funded) JSPS (Funded) (II)MuTr front end electronics (MuTr-FEE Trigger) PHENIX Muon Trigger Upgrade

8 8 W Trigger System MuTr FEE B Trigger Interaction Region Rack Room Trigger events with straight track (e.g.  strip <= 1) ~10  s

9 9 W Trigger System MuTRG ADTX MuTRG MRG MuTr FEE B 2 planes 5% 95% Trigger Interaction Region Rack Room Optical 1.2Gbps Amp/Discri. Transmit Data Merge MuTRG Trigger events with straight track (e.g.  strip <= 1)

10 10 W Trigger System MuTRG ADTX MuTRG MRG MuTr FEE Resistive Plate Counter (RPC) (Φ segmented) B 2 planes 5% 95% Trigger Interaction Region Rack Room Optical 1.2Gbps Amp/Discri. Transmit Data Merge MuTRG RPC FEE RPC / MuTRG data are also recorded on disk. Trigger events with straight track (e.g.  strip <= 1)

11 11 W Trigger System MuTRG ADTX MuTRG MRG Level 1 Trigger Board MuTr FEE Resistive Plate Counter (RPC) (Φ segmented) B 2 planes 5% 95% Trigger Interaction Region Rack Room Optical 1.2Gbps Amp/Discri. Transmit Data Merge MuTRG RPC FEE Trigger events with straight track (e.g.  strip <= 1) RPC / MuTRG data are also recorded on disk.

12 12 W Trigger System MuTR G ADTX MuTR G MRG Level 1 Trigger Board MuTr FEE Resistive Plate Counter (RPC) (Φ segmented) B 2 planes 5% 95% Trigger Interaction Region Rack Room Optical 1.2Gbps Amp/Discri. Transmit Data Merge MuTRG RPC FEE Trigger events with straight track (e.g.  strip <= 1) RPC / MuTRG data are also recorded on disk.

13 13 W Trigger System (Final) MuTR G ADTX MuTR G MRG Level 1 Trigger Board MuTr FEE Resistive Plate Counter (RPC) (Φ segmented) B 2 planes 5% 95% Trigger Interaction Region Rack Room Optical 1.2Gbps Amp/Discri. Transmit Data Merge MuTRG RPC FEE Trigger events with straight track (e.g.  strip <= 1) RPC / MuTRG data are also recorded on disk. DCM

14 14 W Trigger Instrumentation in RHIC 2009 run MuTRG Prototype RPC Full Installation to North Arm, 1/2 octant installed to South Demonstrate performance of RPC and MuTRG with beam of  s=500 GeV. absorber

15 15

16 16 New MuTRIG-FEE in North Arm  Before Install 2008 Install 

17 MuTR-FEE Trigger Performance 17

18 18 MIP 0.05Q Q 0.95Q MuTr MuTrig

19 19 B Track Efficiency = (hit efficiency/station  96%) 3 x (vertex cut efficiency)

20 MuTRG System Run09 performance 20 MuID Algorithm Track Matching w/ MuID Timing cut w/ RPC Track Matching w/ RPC Background Shields etc.. MuID Algorithm Track Matching w/ MuID Timing cut w/ RPC Track Matching w/ RPC Background Shields etc.. 

21 RPC 21

22 RPC 22 North RPC3 South RPC3 RPC 1 RPC3 Fast response Good intrinsic time resolution Good spatial resolution: typically ~ cm Low cost

23 RPC Construction NPL: RPC-3 Pre-Assembly People Half octant testing Storage 23 Pre-Assembly

24 RPC Performance w/ Cosmic 24 Cosmic Ray test with stack of 5 detector modules

25 Prototype RPC Performance @ Run9 25 μ beam BG RPC2RPC3 sigma~5.3ns sigma~4.1ns track reconstructed events Demonstrated Satisfactory Timing Resolution w/ beam!

26 26 Road Map to Run11 Production Run MuTRG Prototype RPC Run9 absorber

27 27 Road Map to Run11 Production Run MuTRG RPC3 Run10

28 28 Installation to South Muon Arm Post Run9 Shutdown Completed! Under Commissioning in Run10 Au-Au Run

29 29 RPC3 North Installation (Nov.’09)

30 RPC3 North Completed Installation 30

31 31 Road Map to Run11 Production Run MuTRG RPC3 Run11 RPC3 absorber

32 32 Final Muon Trigger Configuration MuTRG RPC3 Run12 RPC3 absorber RPC1

33 33 Summary Seak Quark Polarization Measurement @ PHENIX via W-Boson High Momentum MuTR-FEE Trigger is Competed Installation and to be Commissioned in Run10 Both MuTr-FEE Trigger and RPC Commissioning Demonstrated Designed Performances. More rejection power are expected from –RPC (Timing & Matching) –MuID Algorithm –Background Shields PHENIX Muon Arms are getting ready for pp Production at 500 GeV in Run11 PHENIX Muon Arms are getting ready for pp Production at 500 GeV in Run11

34 34 Backup Slides

35 35 LL1 Trigger Readiness LL1 Board MuTRG-MRG Boards Communication test  LL1 Boards Production Completed On going ADTX - MRG - LL1 - GL1 chain test now. New high momentum trigger will be operated in Run10 for commissioning

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