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GLC Detector Geometry Y. Sugimoto
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Introduction Figure of merit : Main Tracker
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Figure of merit : Calorimeter jet 2 = ch 2 + 2 + nh 2 + confusion 2 + threashold 2 Separation of charged particles and /nh is important (See J.C. Brient’s talk at LCWS2004) Charged particles should be spread out by B field Lateral size of EM shower of should be as small as possible ( ~ R m effective : effective Moliere length) Barrel: B R in 2 / R m effective Endcap: B Z 2 / R m effective R in : Inner radius of Barrel ECAL Z : Z position of EC ECAL front face (Actually, it is not so simple. Even with B=0, photon energy inside a certain distance from a charged track scales as ~R in 2 )
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Simulation by J.C. Brient SD (6T) TESLA (4T) e+e- ZH jets at Ecm=500GeV
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Effective Moliere Length Absorber W : Rm ~ 9mm Pb : Rm ~ 16mm Gap : Sensor + R.O. elec + etc. xaxa xgxg Effective Molire Length = R m (1+x g /x a )
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B=0
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Comparison of Detector Models SDTESLAGLCLDJLC SolenoidB(T) 54332 Rin(m) 2.483.03.753.74.25 L(m) 5.89.26.89.49.1 E st (GJ) 1.42.31.01.71.1 TrackerR min (m) 0.20.360.450.50.45 R max (m) 1.251.621.552.02.3 m 715085150100 N sample 520050144100 pt/pt 2 3.9e-51.5e-42.9e-41.6e-41.3e-4
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Comparison of Detector Models SDTESLAGLCLDJLC ECALR in (m)1.271.681.62.02.5 p t min 1.92.01.41.81.5 BR in 2 8.111.37.712.012.5 TypeW/Si Pb/Sci R m (mm)1824.425.521.3 BR in 2 /R m 448462301565588 Z1.722.832.053.02.9 BZ 2 /R m 82213114941271792 X0X0 21242729 Total 5.55.27.36.9 t (m)1.181.31.81.71.5
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Possible modification of GLC Detector Larger R max of the tracker and R in of ECAL Keep solenoid radius same: Somewhat thinner CAL (but still 6 ), but does it matter? Use W/Sci(/Si) instead of Pb/Sci for ECAL Effective Rm: 25.5mm 16.2mm (2.5mm W / 2.0mm Gap) Much smaller segmentation by Si pad layers Put ECCAL at larger Z Longer Solenoid Preferable for B-field uniformity if TPC is used If l*=4.3 (3.5) m is adopted, 10 cm thick W shield around the support tube is not necessary R min of the tracker can be reduced It is preferable Z pole-tip < l* both for neutron b.g. and QC support
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GLC B-field non-uniformity mm Z (m) TESLA TDR Limit R=0.1m R=2.0m TESLA TDR Limit: by H.Yamaoka
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Comparison of Detector Models SDTESLAGLDLDJLC SolenoidB(T) 54332 Rin(m) 2.483.03.753.74.25 L(m) 5.89.28.49.49.1 E st (GJ) 1.42.31.21.71.1 TrackerR min (m) 0.20.360.400.50.45 R max (m) 1.251.622.052.02.3 m 7150 100 N sample 5200220144100 pt/pt 2 3.9e-51.5e-41.1e-41.6e-41.3e-4
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Comparison of Detector Models SDTESLAGLDLDJLC ECALR in (m)1.271.682.12.02.5 p t min (GeV/c) 1.92.01.91.81.5 BR in 2 8.111.313.212.012.5 TypeW/Si W/Sci/SiPb/Sci R m (mm)1824.416.221.3 BR in 2 /R m 448462817565588 Z1.722.832.83.02.9 BZ 2 /R m 822131114521271792 X0X0 21242729 Total 5.55.26.06.9 t (m)1.181.31.41.71.5
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EM Calorimeters Area of EM CAL (Barrel + Endcap) SD: ~40 m 2 / layer TESLA: ~80 m 2 / layer GLD: ~ 100 m 2 / layer (JLC: ~130 m 2 / layer)
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Global Geometry
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Interaction Region
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Summary The LC detector optimized for “Energy Flow Algorithm” is realized with a “Truly large detector” “Truly large detector” can be achieved with a minimal modification of GLC detector, and it can get better performance than any other detector models. Compared with the present GLC detector, Rmin and Zmin of EM CAL should be increased Effective Moliere length of ECAL should be decreased Magnetic field and radius of the solenoid unchanged, but somewhat longer For TESLA detector, it is hard to make Rmin of ECAL larger because of the cost of the Si/W EMCAL The key is Calorimeter
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Summary (Cont.) Things to do: Design new (longer) solenoid magnet with better uniformity TPC: Determine the requirement for the B-field uniformity CAL: Simulations Show the advantage of Large detector 4 cm 2 granularity is good enough for EFA? If not, how many Si layers are necessary? Consider tungsten (W) instead of lead (Pb) Or still stick to hardware compensation rather than EFA? How many ’s needed? Collaboration with US LD: GLC+LD = GLD
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