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MOPLS042 |
Longitudinal Beam Stability for CESR-c
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634 |
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- R. Holtzapple, J.S. Kern, P.J.S. Stonaha
Alfred University, Alfred, New York
- B. Cerio
Colgate University, Hamilton, New York
- M.A. Palmer
Cornell University, Laboratory for Elementary-Particle Physics, Ithaca, New York
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The Cornell Electron-Positron Storage Ring (CESR) operates at 1.9 GeV per beam for high energy physics collisions. To maintain high luminosity it is essential for the bunch trains to be longitudinally stable. Measurements of longitudinal stability with a single, multiple, and colliding trains have been performed using a dual sweep streak camera and are presented in this paper.
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TUPCH097 |
Instrumentation and Operation of a Remote Operation Beam Diagnostics Lab at the Cornell Electron-positron Storage Ring
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1238 |
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- R. Holtzapple, J.S. Kern, P.J.S. Stonaha
Alfred University, Alfred, New York
- B. Cerio
Colgate University, Hamilton, New York
- M.A. Palmer
Cornell University, Laboratory for Elementary-Particle Physics, Ithaca, New York
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Accelerator beam diagnostics are being modified at the Laboratory of Elementary Particle Physics (LEPP) at Cornell University for remote operation at nearby Alfred University. Presently, a streak camera used for longitudinal dynamics measurements on the Cornell Electron-Positron Storage Ring (CESR) is operational and measurements have been made from Alfred University [1]. In the near future, photomultiplier tube arrays for electron and positron vertical beam dynamics measurements will be remotely operated as well. In this paper, we describe instrumentation and operation of the remote beam diagnostics.
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