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M Sullivan SuperB Workshop Elba, Italy May 31 - Jun 3, 2008
Machine – Detector M Sullivan SuperB Workshop Elba, Italy May 31 - Jun 3, 2008
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New IR design with BaBar
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New IR design with luminosity gammas
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New IR design with BaBar
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New IR design with BaBar
BSC envelopes are 15 sigma + 1 mm
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Radiative Bhabhas
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Engineering questions
Transition space from warm bore to cold bore – how much z space is needed Magic flange location (CESR and KEK have done it) Bellows location to relieve stress on detector Be beam pipe Magnet supports Vacuum supports Where can we put pumping? Compensating solenoids Cryostat size Warm bore for the other IR magnets
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Detector beam pipe No doubt Be
Double layer How thick? The closer to the beam the more cooling we need Most likely need Au coating on inside Thickness TBD Cooling fluid (gas does not cool enough)
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MDI Superconducting cryostats
Mounted on the detector Connected by magic flange in front of QD0 Probably need to open up forward doors beam aperture How to install a cryostat inside the DIRC tunnel Shielding inside the detector? – PEP-II had 20 cm of Fe Vibration control Fast dither experience at PEP-II very helpful Being mounted to the detector should also help
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MDI (2) Services to cryostats Easily removed shielding
How to quick disconnect cryostats Rails designed in at the beginning ($) Easily removed shielding SVT cabling and services…How is this done with a magic flange design? Small angle calorimeter? …..
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Extra slides
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CDR design
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Beam parameters used Parameter HER LER Energy (GeV) 7 4
Current (A) Beta X (mm) Beta Y (mm) Emittance X (nm-rad) Emittance Y (pm-rad) Sigma X (m) Sigma Y (nm)
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Magnet parameters Quad G (k/m) L(m) from IP (m) QD0 -1633 0.25 0.40
QD0H QF1L QF1H Dipole B (kG) L(m) from IP (m) B1L B1H
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