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TUPAM1R1 |
Observation of the Ion Imprint in CeC Electron Beam |
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- V. Litvinenko, J.C. Brutus, P. Inacker, Y.C. Jing, J. Ma, I. Petrushina, I. Pinayev, G. Wang
BNL, Upton, New York, USA
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Funding: Work supported by Brookhaven Science Associates, LLC under Contract No. DE-AC02-98CH10886.
Process of imprinting density microbunching (perturbation) in co-moving electron beam in one the key processed in Coherent electron Cooling. We present results of experimental observation of such imprint in electron beam from 26.5 GeV/u ions circulating RHIC storage ring.
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Slides TUPAM1R1 [8.900 MB]
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TUPAM2R2 |
Experimental Demonstration of High-Gain Plasma Cascade Amplifier |
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- V. Litvinenko, J.C. Brutus, C.M. Degen, P. Inacker, Y.C. Jing, J. Ma, R.J. Michnoff, I. Petrushina, I. Pinayev, K. Shih, G. Wang
BNL, Upton, New York, USA
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Plasma-Cascade micro-bunching Amplifier has potential of providing largest bandwidth for boosting ion imprint in Coherent electron Cooling systems. We present results of experimental demonstration of High gain Plasma Cascade Amplifier in the Coherent electron Cooling experiment system at BNL. We present results our simulation, experimental set-up and analysis of our measurements.
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Slides TUPAM2R2 [8.161 MB]
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WEPAM1R2 |
Advances and Challenges in Coherent Electron Cooling Experiment at RHIC |
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- V. Litvinenko
Stony Brook University, Stony Brook, USA
- J.C. Brutus, D. Chan, A.J. Curcio, L. DeSanto, K. Decker, A. Di Lieto, K.A. Drees, R.L. Hulsart, M. Ilardo, P. Inacker, Y.C. Jing, D. Kayran, J. Ma, G.J. Mahler, R.J. Michnoff, G. Narayan, L.K. Nguyen, M.C. Paniccia, W.E. Pekrul, I. Petrushina, I. Pinayev, M.P. Sangroula, S. Seletskiy, F. Severino, K. Shih, J. Skaritka, L. Smart, Z. Sorrell, A. Sukhanov, R. Than, G. Wang, D. Weiss, A. Zaltsman
BNL, Upton, New York, USA
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Funding: Work supported by Brookhaven Science Associates, LLC under Contract No. DE-AC02-98CH10886.
We discuss current advances and remaining challenges in demonstrating Coherent electron Cooling for 26.5 GeV/u ion beam circulating in Relativistic Heavy Ion Colder, RHIC. Since 2020, the CeC experiment utilizes a 4-cell Plasma Cascade micro-bunching Amplifier (PCA) with bandwidth of 20 THz. We report on results obtained during CeC last four years of CeC experiment, including measurements of ion imprint in electron beam, demonstration of high PCA gain and observation of recombination of electrons and Au ions. While we were unable to clearly established CeC cooling, we clearly observed weak regular electron cooling of 26.5 GeV/u ions - the record energy for electron cooling. We discuss challenges experienced during last runs, improvements to the CeC X system and our plans for demonstration of CeC cooling in near future.
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Slides WEPAM1R2 [6.149 MB]
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THPAM2R2 |
Design to Achieve Uniform Electron Beam in Coherent Electron Cooling |
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- Y.C. Jing, A.V. Fedotov, D. Kayran, V. Litvinenko, J. Ma, I. Petrushina, I. Pinayev, S. Seletskiy, K. Shih, G. Wang
BNL, Upton, New York, USA
- V. Litvinenko
Stony Brook University, Stony Brook, USA
- I. Petrushina
SUNY SB, Stony Brook, New York, USA
- K. Shih
SBU, Stony Brook, New York, USA
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The Coherent electron Cooling (CeC) proof of principle experiment requires a high quality electron beam with uniform temporal profile in the cooling section for optimized cooling performance. Due to the nature of strong ballistic compression in the CeC accelerator, a regular initial laser distribution fails to generate such uniform electron beam. Wide choices of initial laser profile with unconventional beam distributions have been studied in simulation. In this paper, we present our findings to possible solution(s) in achieving the uniform electron beam for cooling experiments.
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Slides THPAM2R2 [3.888 MB]
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