| A Perturbative Technique for 3D Modeling of the Microbunched Electron Cooling Concept | Pogorelov, I.V | 2021 | 13th Workshop on Beam Cooling and Related Topics | Pogorelov, 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 Limit | Pogorelov, I.V | 2021 | 13th Workshop on Beam Cooling and Related Topics | Pogorelov, 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 Interface | Abell, D. | 2019 | 10th Int. Particle Accelerator Conf.(IPAC'19), Melbourne, Australia, 19-24 May 2019 | Abell, 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 friction | Pogorelov, I. | 2019 | | I. 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 Elegant | King, J. R. | 2019 | Computer Physics Communications | J.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. | 2014 | arXiv: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. | 2013 | Proc. Int. Part. Accel. Conf., MOPWO071 | B. 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. | 2014 | Proc. Int. Part. Accel. Conf., MOPRO015 | V.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). |