Publications
Publication Information
| Title | JSPEC: A Program for IBS and Electron Cooling Simulation | ||
| Authors | He Zhang, Yuhong Zhang, Steve Benson, Max Bruker | ||
| JLAB number | JLAB-ACP-21-3383 | ||
| LANL number | (None) | ||
| Other number | DOE/OR/23177-5332 | ||
| Document Type(s) | (Meeting) | ||
| Category: | Beam Dynamics |
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| Associated with EIC: | No | ||
| Supported by Jefferson Lab LDRD Funding: | No | ||
| Funding Source: | Nuclear Physics (NP) | ||
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Meeting Paper compiled for IPAC21 Proceedings Proceedings of IPAC 2021 Edited By Liu Lin, John M. Byrd, Regis Neuenschwander, Renan Picoreti, Volker R. W. Schaa JACOW (2021) Page(s) 49-52 | |||
| Publication Abstract: | Intrabeam scattering is an important collective effect that can deteriorate the properties of a high-intensity beam, and electron cooling is a method to mitigate the IBS effect. JSPEC (JLab Simulation Package for Electron Cooling) is an open-source program developed at Jefferson Lab, which simulates the evolution of the ion beam under the IBS and/or the electron cooling effect. JSPEC has been benchmarked with BETACOOL and experimental data. In this report, we will introduce the features of JSPEC, including the friction force calculation, the IBS expansion rate and electron cooling rate calculation, and the beam-dynamic simulations for the electron cooling process; explain how to set up the simulations in JSPEC; and demonstrate the benchmarking results. | ||
| Experiment Numbers: | other | ||
| Group: | Ctr for Adv Stud of Accel | ||
| Document: | |||
| DOI: | https://doi.org/10.18429/JACoW-IPAC2021-MOPAB004 | ||
| Accepted Manuscript: | mopab004.pdf | ||
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