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Collaborations on Beam Instrumentation R&D – A personal view – Manfred Wendt Fermilab 11/21/2008Project X Instrumentation WG1
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Collaborations Collaboration R&D –Gives a view outside the usual lab life. –Notice of experience, skills, expertise and knowledge at other laboratories, institutes and universities. –Broadens the spectrum, shows other perspectives and solutions on same and similar problems. –Initiates new ideas and solutions! –Give opportunities of beam studies at other facilities, meet colleagues under “real-world” (not workshop) conditions. –Social and cultural aspects, e.g. meet new people, travel, have some fun (at and after work!), etc. –Make comparisons (at many levels). 11/21/2008Project X Instrumentation WG2
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Instrumentation Collaborations Beam instrumentation is quite ideal for collaboration projects: –Small and mid-size projects, ideal for smaller lab teams, university groups, etc. –Challenging, practical projects in beam physics and engineering, apply various state-of-the-art technologies, e.g. RF & microwave electronics Lasers and femto-sec timing precision mechanics, UHV, clean-room technologies digital signal processing, real-time software, etc. –Does not need a very large budget (unlike magnets, SCRF cavities, high power RF and modulators, etc.) –But: May require test accelerator facilities with beam time for beam studies. 11/21/2008Project X Instrumentation WG3
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Definition of Collaborations Needs a very clear plan: –Exact definition of the R&D project Scope and deliverables (can be anything between consulting and a complete turn-key system) Schedule and milestones Hard- and software integration Realistic cost estimation (M&S, SWF) –Identify individuals of both partners to be responsible to carry the project. Requires transparency and trust! –Needs oversight, control and reviews with expertise. A personal remark… (…other reasons for collaborations) Examples of Fermilab collaborations on beam instrumentation 11/21/2008Project X Instrumentation WG4
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BNL Laser Wire for HINS BNL test: –750 keV H - beam –Faraday-cup e - detector 11/21/2008Project X Instrumentation WG5
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Fermilab LPM Test Setup Laser Profile Monitor details –Q-switch laser –Laser energy: 50 mJoule –Wavelength: 1064 nm –Pulse length: 9 nsec –Fast rotating mirrors (±4 0 / 100 µsec) –e - detector: scintillator & PMT Installation: –1 st Test with 400 MeV H - –HINS: 2.5 & 60 MeV Upgrades & issues –CW laser for single macro pulse sweep –Detector system for 8 GeV setup 11/21/2008Project X Instrumentation WG6 optical box laser beam H - beam double dipole BPM detector port
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ATF DR BPM Collaboration KEK –Nobuhiro Teranuma –Junji Urakawa SLAC –Doug McCormick –Joe Frisch –Justin May –Janice Nelson –Andrei Seryi –Tonee Smith –Mark Woodley 11/21/2008Project X Instrumentation WG7 Fermilab –Charlie Briegel –Nathan Eddy –Eliana Gianfelice –Bill Haynes –Peter Prieto –Dennis Nicklaus –Ron Rechenmacher –Duane Voy –Manfred Wendt …and many others (Marc Ross!)
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ATF BPM Hardware Overview 11/21/2008Project X Instrumentation WG8 BPF LPF 714 2.16 INJ Down Mix Cal (~ 714) Timing LO (729) CLK (64.9) TRG Digital Receiver Echotek VME µP Motorola 5500 Q I beam position 4 button BPM pickup IF (15) beam VME BUS CTRL LAN PLL 4 ATT Cal & Ctrl 4 CAN
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HOM Collaboration (FLASH) HOM Studies (SLAC, FNAL, DESY) Beam-based cavity alignment HOM BPM system (~ 5 µm res.) Broadband beam phase detection 11/21/2008Project X Instrumentation WG9
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