### Session GH: Instrumentation II

9:00 AM–11:48 AM, Saturday, October 28, 2006
Gaylord Opryland Room: Cheekwood F

Chair: Joe Hamilton, Vanderbilt University

Abstract ID: BAPS.2006.DNP.GH.2

### Abstract: GH.00002 : Multi-Gap Resistive Plate Chamber (MRPC) for the PHENIX TOF upgrade

9:12 AM–9:24 AM

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#### Author:

Hugo Valle
(Vanderbilt University)

The PHENIX experiment has observed enhanced proton/pion ratios in central Au+Au collisions as compared to the expectation from parton fragmentation. The measurements have been done using the scintillator based Time-of-Flight (TOF) detector in the PHENIX East arm, which~ allowed pi/K and K/p separation up to pt = 2.5 and 4 GeV/c respectively. Particle identification (PID) to higher pt ($>$ 8 GeV/c) is needed to better characterize the hadron production mechanism at intermediate and high-pt and differentiate between competing theoretical descriptions. The PHENIX detector is being upgraded with a high-pt PID system. A cost-effective TOF system based on Multi-gap Resistive Plate chambers (MRPC) has been implemented as part of this upgrade. The MRPC-TOF will provide high-resolution timing measurement in the PHENIX West arm. It will supplement the PID provided by the Aerogel and Ring Imaging Cerenkov Counters, and allow for seamless particle identification in the range 0.2 $<$ pT $<$ 9 GeV/c. Three different prototypes were installed and operated in heavy ion beam conditions during RUN5. The design goal of sigma\_t $\sim$ 100 ps has been achieved. The final TOF-MRPC detector will be installed and ready for operation for RUN7. The details on the MRPC design and the electronics chain will be presented.

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2006.DNP.GH.2