Publications – Ilya Pogorelov, Senior Research Scientist

TitleFirst AuthorYearJournalCitation
A Perturbative Technique for 3D Modeling of the Microbunched Electron Cooling ConceptPogorelov, I.V202113th Workshop on Beam Cooling and Related TopicsPogorelov, I.V., Bruhwiler, D.L., Hall, C., Stupakov, G. “A Perturbative Technique for 3D Modeling of the Microbunched Electron Cooling Concept.” 13th Workshop on Beam Cooling and Related Topics, JACoW Publishing, 1-5 November 2021, pp107-110, https://epaper.kek.jp/cool2021/papers/p2009.pdf doi:10.18429/JACoW-COOL2021-P2009
Magnetized Dynamic Friction Force in the Strong-Field, Short-Interaction-Time LimitPogorelov, I.V202113th Workshop on Beam Cooling and Related TopicsPogorelov, I.V., Bruhwiler, D.L. “Magnetized Dynamic Friction Force in the Strong-Field, Short-Interaction-Time Limit.” 13th Workshop on Beam Cooling and Related Topics, JACoW Publishing, 1-5 November 2021. p48-53, https://epaper.kek.jp/cool2021/papers/s603.pdf doi:10.18429/JACoW-COOL2021-S603
Zgoubi Status: Improved Performance, Features, and Graphical InterfaceAbell, D.201910th Int. Particle Accelerator Conf.(IPAC'19), Melbourne, Australia, 19-24 May 2019Abell, D., Beekman, I., Méot, F., Moeller, P., Nagler, R., Nash, B., Pogorelov, I. and Rouson, D., 2019, June. Zgoubi Status: Improved Performance, Features, and Graphical Interface. In 10th Int. Particle Accelerator Conf.(IPAC'19), Melbourne, Australia, 19-24 May 2019 (pp. 3271-3274). JACOW Publishing, Geneva, Switzerland. http://accelconf.web.cern.ch/AccelConf/ipac2019/papers/wepts062.pdf
A new and improved calculation of magnetized dynamic frictionPogorelov, I.2019I. Pogorelov, Bruhwiler, D. Webb, S., Eidelman, Y. and Abell. D. A new and improved calculation of magnetized dynamic friction. https://www.radiasoft.net/rs_dynfriction_20190123/. 2019.
GPU acceleration and performance of the particle-beam-dynamics code ElegantKing, J. R.2019Computer Physics CommunicationsJ.R.King, I.V.Pogorelov, K.M.Amyx, M.Borland, R.Soliday, ``GPU acceleration and performance of the particle-beam-dynamics code Elegant,'' Computer Physics Communications, Volume 235, February 2019, Pages 346-355
Modulator simulations for coherent electron cooling using a variable density electron beam.Bell, G. I.2014arXiv:1404.2320v1.G. I. Bell, I. Pogorelov, B. T. Schwartz, D. L. Bruhwiler, V. N. Litvinenko, G. Wang and Y. Hao, “Modulator simulations for coherent electron cooling using a variable density electron beam,” (2014) arXiv:1404.2320v1.
Coherent Electron Cooling: Status of Single-Pass Simulations.Schwartz, B. T.2013Proc. Int. Part. Accel. Conf., MOPWO071B. T. Schwartz, G. I. Bell, D. L. Bruhwiler, I. Pogorelov, S. D. Webb, V. N. Litvinenko, Y. Hao, G. Wang and S. Reiche, “Coherent Electron Cooling: Status of Single-Pass Simulations,” Proc. Int. Part. Accel. Conf., MOPWO071 (2013).
Advances in Coherent Electron Cooling.Litvinenko, V.N.2014Proc. Int. Part. Accel. Conf., MOPRO015V.N. Litvinenko, G. Wang, G.I. Bell, D.L. Bruhwiler, A. Elizarov, Y. Hao, Y. Jing, D. Kayran, I.V. Pogorelov, D. Ratner, B.T. Schwartz, O. Shevchenko, A. Sobol and S.D. Webb, “Advances in Coherent Electron Cooling,” Proc. Int. Part. Accel. Conf., MOPRO015 (2014).