Artem Korzhimanov

Permanent employment and position
Institute of Applied Physics RAS, junior research scientist
Position at ELSA
Junior research scientist

2001-2007 – N.I. Lobachevsky State University of Nizhny Novgorod, Radiophysical Department, master’s degree

2007-2010 – Institute of Applied Physics RAS, post-graduate course in plasma physics, scientific adviser – A.V. Kim

2010 – PhD in physics and mathematics, PhD thesis “Quasi-stationary and Dynamic Modes of the Interaction of Relativistically Intense Radiation with Overdense Plasma”, scientific adviser – A.V. Kim

Academic qualifications: PhD

Fields of interest

Interaction of relativistically intense laser radiation with matter, laser acceleration of electrons and protons, new sources of X-ray and gamma radiation. Proton transport in biological systems.

Professional career
2004-present – Institute of Applied Physics RAS, research assistant, junior research scientist

Awards, scholarships, grants
A.F. Khokhlov scholarship of the Government of the Nizhny Novgorod region (2006)
Grants of the Dynasty Foundation (2007 – student grant, 2009 – postgraduate student grant)
Winner of the X, XII and XIII IAP RAS competitions of young scientists (2008, 2010, 2011)
G.A. Razuvaev Scholarship (2008-2009)

Teaching activity
2005-2009 – N.I. Lobachevsky State University of Nizhny Novgorod, Radiophysical Department, junior member of teaching staff

7 papers in peer reviewed journals

  1. Коржиманов А.В., Ерёмин В.И., Ким А.В., Тушенцов М.Р. О взаимодействии релятивистски сильных электромагнитных волн со слоем закритической плазмы // ЖЭТФ. – 2007. – Т. 132, вып. 4. – C. 771–784.
  2. Коржиманов А.В., Гоносков А.А., Ким А.В., Сергеев А.М. Об ускорении протонов и легких ионов до энергий ГэВ при взаимодействии сверхсильного лазерного излучения со структурированной плазменной мишенью // Письма в ЖЭТФ. – 2007. – Т. 86, вып. 9. – C. 662–669.
  3. Gonoskov A.A., Korzhimanov A.V., Eremin V.I., Kim A.V., Sergeev A.M. Multi-cascade proton acceleration by a superintense laser pulse in the regime of relativistically induced slab transparency // Phys. Rev. Lett. – 2009. – Vol. 102, no. 18. – Art. no. 184801.
  4. Korzhimanov A.V., Kim A.V. Plasma-field structures during relativistic laser interaction with overdense plasmas at finite electron temperatures // Eur. Phys. J. D. – 2009. – Vol. 55, no 2. – P. 287–292.
  5. Eremin V.I., Korzhimanov A.V., Kim A.V. Relativistic self-induced transparency effect during ultraintense laser interaction with overdense plasmas: Why it occurs and its use for ultrashort electron bunch generation // Phys. Plasmas. – 2010. – Vol. 17, no 4. – Art. no. 043102.
  6. Коржиманов А.В., Гоносков А.А., Хазанов Е.А., Сергеев А.М. Горизонты петаваттных лазерных комплексов // Успехи физических наук. 2011. Т.181, №1. С.9-32.
  7. Soloviev A.A., Burdonov K.F., Ginzburg V.N., Gonoskov A.A., Katin E.V., Kim A.V., Kirsanov A.V., Korzhimanov A.V., Kostyukov I.Y., Lozhkarev V.V., Luchinin G.A., Mal'shakov A.N., Martyanov M.A., Nerush E.N., Palashov O.V., Poteomkin A.K., A.M. Sergeev, Shaykin A.A., Starodubtsev M.V., Yakovlev I.V., Zelenogorsky V.V., and Khazanov E.A. Fast electron generation using PW-class PEARL facility // Nuclear Instruments and Methods in Physics Research A: Accelerators, Spectrometers, Detectors and Associated Equipment. 2011. DOI: 10.1016/j.nima.2011.01.180.
  8. Gonoskov A.A., Korzhimanov A.V., Kim A.V., Marklund M., Sergeev A.M. Ultrarelativistic nanoplasmonics as a new route towards extreme intensity attosecond pulses // arXiv:1104.5375v1 [physics.plasm-ph]. - 2011.