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Published byRandell Townsend Modified over 9 years ago
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Si sensors for LumiCal Wojciech Wierba Institute of Nuclear Physics PAN Cracow, Poland FCAL Workshop, LAL Orsay, 05-06.10.2007
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Proposed Si sensor prototype for LumiCal
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Hamamatsu offer Si wafer thickness = 320 µm Si wafer thickness = 320 µm Dark current = 10 nA/cm 2 @ 200 V => ~5 nA for the largest pad Dark current = 10 nA/cm 2 @ 200 V => ~5 nA for the largest pad Clearance cutting line to guard ring = ~2 times wafer thickness (~640 µm) Clearance cutting line to guard ring = ~2 times wafer thickness (~640 µm) Time schedule = ~5 months Time schedule = ~5 months Costs (masks, prototyping) = ~18600 € Costs (masks, prototyping) = ~18600 € Detector cost = 930 €/pcs. @ 40 pcs. Detector cost = 930 €/pcs. @ 40 pcs.
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LumiCal cross section Si detectors glued to ceramic support or (most probably) directly to tungsten absorber with capton foil insulation. The gap between plates should be reduced from 1.5 mm to ~1 mm (or less) using bump bonding (better energy res.). Fan-out based on thin capton foil
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Summary We are very close to place a Si sensors prototype production. We are very close to place a Si sensors prototype production. We are discussing with Hamamatsu fan-out production and bump bonding. We are discussing with Hamamatsu fan-out production and bump bonding. Still lot of problems to be solved: bump bonding to the front end electronics „PCB”, bump bonding reliability, fan-out crosstalk & capacitance. Still lot of problems to be solved: bump bonding to the front end electronics „PCB”, bump bonding reliability, fan-out crosstalk & capacitance.
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