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Muon & PID Summary. R. Wilson – CSU: Particle ID Software Infrastructure Embedding PID in the overall LCD/JAS s/w infrastructure? Fast Simulation/Reconstruction : dE/dx tool; code checks; muon fast simulation. Cross subsystem PID. A. Maciel – NIU: Simulation Software Development
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Muon & PID Summary R. Wilson – CSU: Particle ID Software Infrastructure • Embedding PID in the overall LCD/JAS s/w infrastructure? • Fast Simulation/Reconstruction : dE/dx tool; code checks; muon fast simulation. • Cross subsystem PID. A. Maciel – NIU: Simulation Software Development • Extension of generalized and universal simulation framework – new worldwide effort. • Planar muon detector example with 45o strips. Big advance! u vs. v for 2 tracks
Muon & PID Summary (cont.) C. Milstene – NIU: Muon ID Software Development • Resurrection of m code. • Verification of M. Piccolo’s muon ID for single particles and b-b events. G. Fisk – Fermilab: Scintillator Muon Detector Prototype Planes: Description • General description of scintillator strip layout. M. Wayne – UND: Fiber Connections & Routing • Discussion of fiber associated with bringing the WLS light out of the scintillator strips and onto a multi-anode photomultiplier.
Muon & PID Summary (cont.) P. Karchin – WSU: MAPMT Readout and Calibration Issues • Test results on Hamamatsu M-16 multi-anode PMT. Calibration ideas. R. Wilson – CSU Geiger Photodiode Array Readout Test • Description of tests performed on prototype APD (avalanche photo-diode). M. Piccolo – INFN RPC Prototype Design Issues • First test results for new glass RPCs. • Rate capability studies • Test Beam at Frascati Plateau curve
Prototype Module Layout 5.0 m 2.5m 43 full strips 43 short strips 3.6m (L) x 4.1cm (W) x 1cm (T) 3.6m => 0m long Read out: both ends of full strips; one end of short strips (except the shortest 22). 2*(43 + 21) fibers/side =128 channels = 8 (1.2mm dia) fibers/pix * 16(4 x 4mm2) pixels => Equivalent of One MAPMT/prototype plane