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CESR as Light Source David Rubin for the CESR Operations Group Cornell University Laboratory for Elementary-Particle Physics.

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Presentation on theme: "CESR as Light Source David Rubin for the CESR Operations Group Cornell University Laboratory for Elementary-Particle Physics."— Presentation transcript:

1 CESR as Light Source David Rubin for the CESR Operations Group Cornell University Laboratory for Elementary-Particle Physics

2 April 28, 2009 CHESS Site Visit 2 - Introduction to CESR - CESR Operating Status - Multi-bunch optics - Low emittance tuning - Single beam test optics

3 April 28, 2009 CHESS Site Visit 3 CESR - CESR operates with counterrotating beams of electrons and positrons - Beam energy ranges from 1.5-5.5 GeV HEP Bunch configuration - 9 equally spaced trains - As many as 6 bunches/train with 14ns spacing - I total ~ 250 mA/beam Injector - Linac ~ 300MeV e - & 150MeV e + - Synchrotron booster accelerates to full storage ring energy - Linac/synchrotron cycle at 60Hz - Electron gun pulses at up to 72MHz (one bunch every 14ns) to fill CESR with trains of bunches (~25 bunches/cycle)

4 April 28, 2009 CHESS Site Visit 4 CESR operations 200 mA - 30 bunches electrons 180 mA - 22 bunches positrons  ~ 12 hours Periodic top off ~ 3hours (Top off in 3 minutes)  h ~ 140 nm  v ~ 1-2 nm X-ray beam position stability < 30  m. 23.5 hours beam/day

5 April 28, 2009 CHESS Site Visit 5 CESR multi-bunch operation Two beam operation To prevent collisions of counterrotating beams, 4 electrostatic kickers that deflect electrons and positrons in opposite directions are used to generate differential closed orbits With 9 trains/ 6 bunches/train collisions at IP With removal of low  interaction region optics collisions are not tolerable  Configuration for CHESS today is 4 positron and 5 electron trains [6 bunches/train] 24 bunches of positrons, 30 bunches of electrons High bunch current /good lifetime/ low vertical emittance are mutually exclusive More brilliance requires more bunches

6 April 28, 2009 CHESS Site Visit 6 CESR optics are flexible -No periodicity -No symmetry -All quadrupoles (100) and sextupoles (78) are independently powered More Bunches 9X5 optics

7 April 28, 2009 CHESS Site Visit 7 CESR multi-bunch operation Development of 10X4 optics is underway in machine studies Anticipate 10X4 operation beginning with next CHESS run - September 2009 10X4 optics Rearrange  -phase advance -Electron and positron closed orbits accommodate 10 trains (20 lobes) with 4 bunches/train  40 bunches/beam 10X4

8 April 28, 2009 CHESS Site Visit 8 Accelerator R&D Low Emittance Tuning (grad students Jim Shanks and Walter Hopkins) Having removed the low-  interaction region optics including CLEO 1.5T solenoid, rotated IR quadrupoles, vertical separators we have eliminated principle sources of transverse coupling, vertical dispersion and vertical beam size Instrumentation -New survey and alignment network laser tracker/digital level  faster and more precise alignment -Upgrade from analog to digital beam position monitor electronics will permit single bunch/single pass/real time/nondestructive measurement of Orbit,  - functions, Transverse coupling,Dispersion - Xray vertical beam size monitor (bunch by bunch) - Developing techniques and software for online analysis of beam based data  preserve minimum emittance and stable beam position

9 April 28, 2009 CHESS Site Visit 9 Accelerator R&D Undulator Test optics CESR optics are flexible but: - Two beam optics severely constrained to preclude collisions - Number of bunches/beam limited - Impedes low emittance tuning (beam is off axis and in fringe field in most magnets) - Complicates injection (injected bunch collides with opposite species stored beam) Single beam optics - no “pretzel” constraint - Lower horizontal emittance optics - More bunches (lower bunch current, smaller vertical beam size, longer lifetime) - More efficient injection (top off ?) - Reduced vertical emittance

10 April 28, 2009 CHESS Site Visit 10 Single beam optics 5GeV Positrons >180 bunches I = 250mA  h = 50nm  v ~ 200pm Undulator test optics

11 April 28, 2009 CHESS Site Visit 11 CESR ParametersTodaySeptember 2009 Single beam Machine studies Energy[GeV]5.3 2.0 Emittance[nm] (h/v)140/1110/152/0.22.5/0.02 Bunches30/2240/40>180 Current/beam [mA]175225250>250 Particle speciese + & e - e + or e - Horizontal Tune10.5710.2114.57 Summary

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