Stanislav S. Baturin, Ph.D.

Title: Assistant Professor
Department: Electrical Engineering
Physics (College of Liberal Arts and Sciences)
Office Location: EB 338
Office Phone: 815-753-4072


  • Ph.D. in Theoretical and Mathematical Physics, St. Petersburg State University, Russia (2014)
  • M.S. in Quantum Electrodynamics of Atomic Systems (with honors), St. Petersburg State University, Russia (2007)
  • B.S. in Quantum Electrodynamics of Atomic Systems (with honors), St. Petersburg State University, Russia (2004)

Research Interests

  • Beam physics.
  • Advanced accelerator techniques, wakefied acceleration.
  • Nonlinear dynamics and nonlinear phenomena.
  • Material science, field and photo emission from nanostructures (CNTs, UNCD films etc.).
  • Computational Electromagnetics.
  • Vacuum electronics.

Selected Journal Publications

  • Stanislav S. Baturin, Tanvi Nikhar, Sergey V. Bryshev Field Emission Induced Glow Discharge in Nanodiamod Vacuum Diode // Journal of Physics D 52(32):325301 (2019).
  • Oksana Chubenko, Stanislav S. Baturin, Sergey V. Baryshev Theoretical Evaluation of Electron Density-of-states and Trasport Effects on Field Emission from n-type Ultrananocrystaline Diamond Films // Journal of Applied Physics 125(20):205303 (2019).
  • Dae Heun Koh, Stanislav S. Baturin Analytical model of 3D beam dynamics in a wakefield device // Nucl. Instrum. Methods Phys. Res. А 2019 V. 925 P128-132.
  • S.S. Baturin, G. Andonian, J.B. Rosenzweig Analytical treatment of the wakefields driven by transversely shaped beams in a planar slow-wave structure // Phys. Rev. Accel. Beams 2018, V. 21 (12):121302.
  • Q. Gao, G. Ha, C. Jing, S. P. Antipov, J. G. Power, M.Conde, W. Gai, H. Chen, J. Shi, E. E. Wisniewski, D. S. Doran, W. Liu, C. E. Whiteford, A. Zholents, P. Piot, and S. S. Baturin, Observation of High Transformer Ratio of Shaped Bunch Generated by an Emittance-Exchange Beam Line // Phys. Rev. Lett. 2018, V. 120: 114801.
  • S.S. Baturin and A. Zholents, Stability condition for the drive bunch in a collinear wakefield accelerator // Phys. Rev. Accel. Beams 2018, V 21: 031301.
  • Jiaqi Qiu, Stanislav S. Baturin, Kiran Kumar Kovi, Oksana Chubenko, Gongxiaohui Chen, Richard Konecny, Sergey Antipov, Anirudha V. Sumant, Chunguang Jing and Sergey V. Baryshev Nanodiamond Thin Film Field Emitter Cartridge for Miniature High-Gradient Radio Frequency X-Band Electron Injector // IEEE Transactions on Electron Devices 2018, PP (99): 1-7.
  • S.S. Baturin and A. Zholents Upper limit for the accelerating gradient in the collinear wakefield accelerator as a function of the transformer ratio. // Phys. Rev. Accel. Beams 2017, V. 20: 061302.
  • Oksana Chubenko, Stanislav S. Baturin, Kiran K. Kovi, Anirudha V. Sumant and Sergey V. Baryshev Locally Resolved Electron Emission Area and Unified View of Field Emission from Ultrananocrystalline Diamond Films // ACS Applied Materials & Interfaces 2017, V. 9:33229.
  • Jiaqi Qiu, Stanislav S. Baturin, Yingjie Li, Chunguang Jing, Alexei Kanareykin, Sergey V. Baryshev, Bryan W. Reed, Daniel Masiel, June W. Lau, Yimei Zhu Stroboscopic High-Duty-Cycle GHz Time-Resolved Microscope: Toward Hardware Implementation and Commissioning. // Microscopy and Microanalysis 2017, V. 23 (S1): 862-863.
  • S.S. Baturin and S.V. Baryshev Electron emission projection imager // Review of Scientific Instruments 2017, V. 88 (3):033701.
  • S. Antipov, S. V. Baryshev, R. Kostin, S. Baturin, J. Qiu, C. Jing, C. Swinson, M. Fedurin, and D. Wang Efficient extraction of high power THz radiation generated by an ultra-relativistic electron beam in a dielectric loaded waveguide // Applied Physics Letters 2016, V. 109 (14): 142901.
  • Oksana Chubenko, Stanislav S. Baturin and Sergey V. Baryshev Scanning probe microscopy and field emission schemes for studying electron emission from polycrystalline diamond // Applied Physics Letters 2016, V. 109 (11): 113102.
  • S.S. Baturin and A.D. Kanareykin New method of calculating the wakefields of a point charge in a waveguide of arbitrary cross section. // Phys. Rev. Accel. Beams 2016. V. 19 (5): 051001. (Editors suggestion).
  • S.S. Baturin, A.D. Kanarekin Cherenkov radiation from short relativistic bunches: general approach // Phys. Rev. Lett. 2014 113, 214801.
  • S.N. Galyamin, A.V. Tyukhtin, S. Antipov, S.S. Baturin, Terahertz radiation from an ultra-relativistic charge exiting the open end of a waveguide with a dielectric layer // Optics Express, 2014, 22 (8) P. 8902-8907.
  • S. Antipov, S. Baturin, C. Jing, M. Fedulin, A. Kanareykin, C. Swinson, P. Schoessow, W. Gai Experimental demonstration of energy-chirp compensation by a tunable dielectric-based structure. // Phys. Rev. Lett. 2014, 112 (11): 114801.
  • Baturin S.S., Sheinman I.L., Altmark A.M., Kanareykin A.D. Transverse operator method for wakefields in a rectangular dielectric loaded accelerating structure // Phys. Rev. ST-AB. 2013. V. 16 P. 051302.
  • S.S. Baturin, I.L. Sheinman, A.M. Altmark, A.D. Kanareykin Wakefield radiation generated by an electron bunch in a rectangular dielectric waveguide // Journal of Technical Physics 2012. V. 82 N. 5 P. 106-114.
  • Schoessow P., Kanareykin A., Baturin S., Tomás-Garcia R., Resta-Lopez J. Dielectric Collimators for Beam Delivery Systems // Physics Procedia. 2012. V. 37 P. 2023–2030.
  • S.S. Baturin, I.L. Sheinman, A.M. Altmark, D.A. Semikin, A.D. Kanareykin Wakefield radiation generated in a dielectric filled rectangular accelerating structure // Technical Physics Letters 2011. V. 37 N. 5 P. 394-396.
  • V.M. Shabaev, O.V. Andreev, A.N. Artemyev, S.S. Baturin, A.A. Elizarov, Y.S. Kozhedub, N.S. Oreshkina, I.I. Tupitsyn, V.A. Yerokhin, O.M. Zherebtsov QED Effects in Heavy Few-Electron Ions // International Journal of Mass Spectrometry 2005, 251 (2-3) p. 109-118.

Work Experience

  • Department of Electrical Engineering and Department of Physics, Northern Illinois University (2019-present)
  • Enrico Fermi Institute, The University of Chicago (2017-2019)
  • Euclid Techlabs, LLC (2015-2016)
  • St. Petersburg State Electrotechnical University LETI, Russia (2008-2015)
  • Central Scientific Research Institute for Robotics and Technical Cybernetics, Russia (2007-2010).