2022
1. Gennady A. Mesyats, Elizaveta A. Osipenko, Konstantin A. Sharypov, Valery G. Shpak, Sergey A. Shunailov, Michael I. Yalandin, Nikolay M. Zubarev. An Ultra-Short Dense Paraxial Bunch of Sub-Relativistic Runaway Electrons // IEEE Electron Device Letters. - 2022. - V. 43. - Iss. 4. - P. 627-630.
2. M. Belyaev, N. Zubarev, O. Zubareva. Conical structures on the surface of a liquid with surface ionic conductivity: the space charge effect // Proceedings of 8th International Congress on Energy Fluxes and Radiation Effects (EFRE-2022), October 2-8, 2022, Tomsk, Russia. - 2022. - P. 781-784.
3. Gennady Mesyats, Vladislav Rostov, Konstantin Sharypov, Valery Shpak, Sergey Shunailov, Michael Yalandin and Nikolay Zubarev. Emission Features and Structure of an Electron Beam versus Gas Pressure and Magnetic Field in a Cold-Cathode Coaxial Diode // Electronics. - 2022. - V. 11. - Iss. 2. - Article N 248.
4. Yuriy I. Mamontov, Yuriy A. Zemskov, Igor V. Uimanov, Nikolay M. Zubarev, Andrey V. Kaziev, Maxim M. Kharkov, Sergey A. Barengolts. Emission Properties and Dielectric Strength of a Nanostructured Tungsten Field-Emissive Cathode // IEEE Transactions on Plasma Science. - 2022. - V. 50. - Iss. 9. - P. 2720-2728.
5. E.A. Karabut, E.N. Zhuravleva, N.M. Zubarev and O.V. Zubareva. Evolution of nonlinear perturbations for a fluid flow with a free boundary. Exact results // Journal of Fluid Mechanics. - 2022. - V. 953. - 953A1-1 - 953A1-22.
6. Nikolay M. Zubarev, Olga V. Zubareva and Michael I. Yalandin. Features of Electron Runaway in a Gas Diode with a Blade Cathode // Electronics. - 2022. - V. 11. - Iss. 17. - Article N 2771.
7. Evgeny A. Kochurin, Mikhail A. Gashkov, Nikolay M. Zubarev. Formation of a Small-Scale Chaotic Relief on the Free Surface of a Dielectric Liquid in a Tangential Electric Field // 2022 IEEE 21st International Conference on Dielectric Liquids (ICDL). - 2022. - P. 1-4.
8. Stepan N. Ivanov. Investigation of the switching characteristics of high-pressure subnanosecond gas dischargers with the purpose of a sharp increasing of the breakdown voltages and the switching speed // Plasma Sources Science and Technology. - 2022. - V. 31. - Iss. 5. - Article N 055001.
9. K. Sharypov, E. Osipenko, V. Shpak, S. Shunailov, M. Yalandin, N. Zubarev. Parameters of a paraxial magnetized bunch of runaway electrons // Proceedings of 8th International Congress on Energy Fluxes and Radiation Effects (EFRE-2022), October 2-8, 2022, Tomsk, Russia. - 2022. - P. 566-571.
10. A.I. Lipchak, N.B. Volkov, S.V. Barakhvostov, E.A. Chingina, I.S. Turmyshev. Plasma instability in a laser controlled high-voltage switch for RADAN type electron accelerator // Proceedings of 8th International Congress on Energy Fluxes and Radiation Effects (EFRE-2022), October 2-8, 2022, Tomsk, Russia. - 2022. - P. 355-360.
11. Y. Mamontov, G. Mesyats, K. Sharypov, V. Shpak, S. Shunailov, M. Yalandin, N. Zubarev, O. Zubareva. Runaway electrons in an air gap in the presence of a magnetic field // Proceedings of 8th International Congress on Energy Fluxes and Radiation Effects (EFRE-2022), October 2-8, 2022, Tomsk, Russia. - 2022. - P. 520-523.
12. Nikolay B. Volkov and Alexander I. Lipchak. Thermodynamic Functions of a Metal Exposed to High Energy Densities in Compressed and Expanded States // Condensed Matter. - 2022. - V. 7. - Iss. 4. - Article N 61.
13. Evgeny Kochurin, Guillaume Ricard, Nikolay Zubarev, and Eric Falcon. Three-dimensional direct numerical simulation of free-surface magnetohydrodynamic wave turbulence // Physical Review E. - 2022. - V. 105. - Article N L063101.
2021
1. G.A. Mesyats, S.A. Chaikovsky, N.M. Zubarev, A.S. Kaygorodov and E.E. Kokorina. 15th International Conference "Gas Discharge Plasmas and Their Applications" // Journal of Physics: Conference Series: 15th Intern. Conf. "Gas Dischage Plasmas and Their Applications" (GDP 2021). - 2021. - V. 2064. - Article N 011001.
2. Yuriy I. Mamontov, Nikolay M. Zubarev, Igor V. Uimanov. Anisotropy of the Runaway Electron Generation Process in Strongly Inhomogeneous Electric Fields // IEEE Transactions on Plasma Science. - 2021. - V. 49. - Iss. 9. - Part 1. - P. 2589-2598.
3. Evgeny A. Kochurin and Nikolay M. Zubarev. Chaotic Dynamics of the Interface between Dielectric Liquids at the Regime of Stabilized Kelvin-Helmholtz Instability by a Tangential Electric Field // Fluids. - 2021. - V. 6. - Iss. 3. - Article N 125.
4. Yuriy I. Mamontov, Yuriy A. Zemskov, Igor V. Uimanov, Nikolay M. Zubarev, Andrey V. Kaziev, and Sergey A. Barengolts. Electrical properties of He-induced W "fuzz" within the pre-breakdown and breakdown regimes // Proc. of XXIX Int. Symp. on Discharges and Electrical Insulation in Vacuum (ISDEIV 2020), 26-30 Sept. 2021, Padova, Italy. - 2021. - P. 69-72.
5. Olga V. Zubareva, Nikolay B. Volkov, Nikolay M. Zubarev. Equilibrium configurations of an uncharged liquid jet in a transverse electric field: Conditions for existence // Interfacial Phenomena and Heat Transfer. - 2021. - V. 9. - Iss. 2. - P. 1-13.
6. Sergey A. Barengolts, Konstantin E. Bobrov, Nikolay M. Zubarev, Olga V. Zubareva. Explosive Parametric Instability of the Free Surface of a Liquid Metal in a Radio Frequency Electric Field // IEEE Transactions on Plasma Science. - 2021. - V. 49. - Iss. 9. - Part 1. - P. 2470-2477.
7. Yu.A. Zemskov, Yu.I. Mamontov, I.V. Uimanov, N.M. Zubarev, A.V. Kaziev, M.M. Kharkov and S.A. Barengolts. Instabilities of electrical properties of He-induced W "fuzz" within the pre-breakdown and breakdown regimes // Journal of Physics: Conference Series: 15th Intern. Conf. "Gas Dischage Plasmas and Their Applications" (GDP 2021). - 2021. - V. 2064. - Article N 012004.
8. Konstantin A. Sharypov, Sergey A. Shunailov, Michael I. Yalandin, Nikolay M. Zubarev. Reflectometry of Picosecond Emission and Discharge Processes in a Gas-Filled High-Voltage Coaxial Line // IEEE Transactions on Plasma Science. - 2021. - V. 49. - Iss. 9. - Part 1. - P. 2516-2523.
9. G.A. Mesyats, K.A. Sharypov, V.G. Shpak, S.A. Shunailov, M.I. Yalandin and N.M. Zubarev. Runaway electron flows in magnetized coaxial gas diodes // Journal of Physics: Conference Series: 15th Intern. Conf. "Gas Dischage Plasmas and Their Applications" (GDP 2021). - 2021. - V. 2064. - Article N 012006.
10. G.A. Mesyats and N.M. Zubarev. Runaway of electrons and initiation of explosive electron emission during pulse breakdown of high-pressure gases // Journal of Physics: Conference Series: 15th Intern. Conf. "Gas Dischage Plasmas and Their Applications" (GDP 2021). - 2021. - V. 2064. - Article N 012035.
11. Stepan N. Ivanov, Vasily V. Lisenkov and Yuriy I. Mamontov. Streak investigations of the dynamics of subnanosecond discharge developing in nitrogen at a pressure of 6 atm with the participation of runaway electrons // Plasma Sources Science and Technology. - 2021. - V. 30. - N 7. - Article N 075021.
12. G.A. Mesyats, E.A. Osipenko, K.A. Sharypov, V.G. Shpak, S.A. Shunailov, M.I. Yalandin and N.M. Zubarev. Subnanosecond breakdown of air-insulated coaxial line initiated by runaway electrons in the presence of a strong axial magnetic field // Journal of Physics: Conference Series: 15th Intern. Conf. "Gas Dischage Plasmas and Their Applications" (GDP 2021). - 2021. - V. 2064. - Article N 012003.
13. A.I. Lipchak, S.V. Barakhvostov, N.B. Volkov, E.A. Chingina and I.S. Turmyshev. The study of instabilities role of plasma in the high-voltage discharge formation initiated by optical radiation at high pressures in high-voltage optically triggered switches // Journal of Physics: Conference Series: 15th Intern. Conf. on "Gas Dischage Plasmas and Their Applications" (GDP 2021). - 2021. - V. 2064. - Article N 012098.
2020
1. N. Zubarev, A. Sadykova, S. Shunailov, A. Kozyrev, G. Mesyats, K. Sharypov, M. Ulmaskulov, N. Semeniuk, V. Shpak, M. Yalandin, O. Zubareva. Analysis of the Minimum Duration of the Runaway Electron Flow in an Air Electrode Gap // 7th International Congress on Energy Fluxes and Radiation Effects (EFRE). - 2020. - P. 32-36.
2. E.A. Karabut, E.N. Zhuravleva, N.M. Zubarev. Application of transport equations for constructing exact solutions for the problem of motion of a fluid with a free boundary // Journal of Fluid Mechanics. - 2020. - Vol. 890. - Article N A13 (19 pages.).
3. G.Sh. Boltachev, E.A. Chingina, N.B. Volkov, K.E. Lukyashin. Elastic properties, yield surface and flow rule of nanopowder compacts // Materials Physics and Mechanics. - 2020. - V. 44. - No. 1. - P. 137-158.
4. N.M. Zubarev, O.V. Zubareva. Explosive character of instability development for the free surface of a conducting liquid in an electric field // Journal of Physics: Conference Series. - 2020. - Vol. 1556. - Article N 012014 (8 pages).
5. Olga Zubareva, Konstantin Bobrov, Nikolay Zubarev. Explosive Instability of the Surface of a Conducting Fluid in an Electric Field in Confined Axisymmetric Geometry // 7th International Congress on Energy Fluxes and Radiation Effects (EFRE). - 2020. - P. 232-237.
6. O.V. Zubareva, K.E. Bobrov, N.M. Zubarev. Explosive instability of the surface of a liquid dielectric in a vertical electric field in confined geometry // IEEE Transactions on Dielectrics and Electrical Insulation. - 2020. - V. 27. - №. 4. - P. 1229-1237.
7. M.I. Yalandin, A.G. Sadykova, K.A. Sharypov, V.G. Shpak, S.A. Shunailov, O.V. Zubareva, N.M. Zubarev. Features of the secondary runaway electron flow formed in an elongated, atmospheric pressure air gap // Physics of Plasmas. - 2020. - Vol. 27. - Article N 103505 (9 pages).
8. N. Zubarev, K. Sharypov, S. Shunailov, A. Sadykova, V. Shpak, M. Yalandin. Formation of the Secondary Runaway Electron Flow in an Elongated Atmospheric Gap // 7th International Congress on Energy Fluxes and Radiation Effects (EFRE). - 2020. - P. 364-368.
9. G.A. Mesyats, M.I. Yalandin, N.M. Zubarev, A.G. Sadykova, K.A. Sharypov, V.G. Shpak, S.A. Shunailov, M.R. Ulmaskulov, O.V. Zubareva, A.V. Kozyrev and N.S. Semeniuk. How short is the runaway electron flow in an air electrode gap? // Applied Physics Letters. - 2020. - Vol. 116. - Iss. 6. - Article N 063501 (5 pages).
10. Yuriy Mamontov, Igor Uimanov, Andrey Kozyrev, Nikolay Zubarev, Natalia Semeniuk. Influence of Inhomogeneous Electric Field Geometry Factors on Runaway Electrons Generation Conditions // 7th International Congress on Energy Fluxes and Radiation Effects (EFRE). - 2020. - P. 140-146.
11. N.M. Zubarev, V.Yu. Kozhevnikov, A.V. Kozyrev, G.A. Mesyats, N.S. Semeniuk, K.A. Sharypov, S.A. Shunailov, M.I. Yalandin. Mechanism and dynamics of picosecond radial breakdown of a gas-filled coaxial line // Plasma Sources Science and Technology. - 2020. - Vol. 29. - Iss. 12. - Art. no 125008 (15 pages).
12. O.V. Zubareva, N.M. Zubarev, K.E. Bobrov. Nonlinear conditions for instability of the free surface of a conducting liquid in an external electric field in a confined axisymmetric geometry // Journal of Physics: Conference Series. - 2020. - Vol. 1556. - Article N 012015 (9 pages).
13. Kochurin Evgeny A. Numerical simulation of the wave turbulence on the surface of a ferrofluid in a horizontal magnetic field // Journal of Magnetism and Magnetic Materials. - 2020. - Vol. 503. - Article N 166607 (5 pages).
14. G.A. Mesyats, N.M. Zubarev, I.V. Vasenina. On the Nature of Nanosecond Diffusion-Channel Discharges in Air // 7th International Congress on Energy Fluxes and Radiation Effects (EFRE). - 2020. - P. 1-5.
15. M.A. Belyaev, N.M. Zubarev, O.V. Zubareva. Space-charge-limited current through conical formations on the surface of a liquid with ionic conductivity // Journal of Electrostatics. - 2020. - Vol. 107. - Article N 103478 (8 pages).
16. E.A. Kochurin, O.V. Zubareva, N.M. Zubarev. Wave breaking on the surface of a dielectric liquid in a horizontal electric field // IEEE Transactions on Dielectrics and Electrical Insulation. - 2020. - V. 27. - №. 4. - P. 1222-1228.
2019
1. K.E. Bobrov, N.M. Zubarev, O.V. Zubareva. Conditions for explosive growth of free surface perturbations for a dielectric liquid in a normal electric field in confined axisymmetric geometry // Procedings of 20th IEEE International Conference on Dielectric Liquids. - 2019. - IEEE Xplore, Digital Library, P. 1-4.
2. M.A. Belyaev, N.M. Zubarev, O.V. Zubareva. Conical structures on the surface of a liquid with ion current in the space-charge limited mode // Procedings of 20th IEEE International Conference on Dielectric Liquids. - 2019. - IEEE Xplore, Digital Library, P. 1-4.
3. Mikhail A. Gashkov, Gennady A. Mesyats, Nikolay M. Zubarev, Olga V. Zubareva. Criteria for the Formation of Liquid-Metal Jets in the Cathode Spot of a Vacuum Arc Discharge // IEEE Transactions on Plasma Science. - 2019. - Vol. 47. - Iss. 8. - Part 1. - P. 3448-3455.
4. G.Sh. Boltachev, E.A. Chingina, A.V. Spirin, N.B.Volkov. Densification rate influence on nanopowder compactibility // Materials Physics and Mechanics. - 2019. - Vol. 42. - N 2. - P. 165-177.
5. N.M. Zubarev, O.V. Zubareva. Exact particular solution for the blade-like surface configuration of a conducting liquid in an external electric field // Journal of Physics: Conference Series. - 2019. - Vol. 1147. - Article N 012085.
6. E.A. Kochurin, O.V. Zubareva, N.M. Zubarev. Growth of nonlinear structures on the interface between dielectric liquids in a strong vertical electric field // Journal of Physics: Conference Series. - 2019. - Vol. 1268. - P. 012026.
7. Mikhail A. Gashkov, Gennady A. Mesyats, Igor V. Uimanov, Nikolay M. Zubarev. Molten Metal Jets Formation in the Cathode Spot of a Vacuum Arc // IEEE Transactions on Plasma Science. - 2019. - Vol. 47. - Iss. 8. - Part 1. - P. 3456-3461.
8. E.A. Kochurin. Numerical simulation of the wave breaking process on the surface of a dielectric liquid in a tangential electric field // Procedings of 20th IEEE International Conference on Dielectric Liquids. - 2019. - IEEE Xplore, Digital Library, P. 1-4.
9. M.A. Gashkov, G.A. Mesyats, N.M. Zubarev. Splashing conditions for a liquid metal in vacuum arcs: Cyclic processes in a cathode spot // Journal of Physics: Conference Series. - 2019. - Vol. 1147. - Art. no 012125.
10. G.Sh. Boltachev, E.A. Chingina, K.E. Lukyashin, A.I. Medvedev, N.B. Volkov. Three-dimentional granular dynamics simulations of polydisperse and bidisperse nanopowders compaction processes // Journal of Physics: Conference Series. - 2019. - Vol. 1147. - P. 012010.
11. Е.Н. Журавлева, Н.М. Зубарев, О.В. Зубарева, Е.А. Карабут. Алгоритм построения точных решений плоской нестационарной задачи о движении жидкости со свободной границей // Письма в Журнал экспериментальной и теоретической физики. - 2019. - Т. 110. - № 7. - С. 443-448.
12. Н.М. Зубарев, П.М. Лушников. Взрывное развитие квантовой неустойчивости Кельвина–Гельмгольца свободной поверхности He-II // ЖЭТФ. - 2019. - Т. 156. - № 4. - 711-720.
13. Е.А. Кочурин. Волновая турбулентность поверхности жидкости во внешнем тангенциальном электрическом поле // Письма в Журнал экспериментальной и теоретической физики. - 2019. - Т. 109. - № 5. - С. 306-311.
14. Н.М. Зубарев, Е.Ю. Просвиряков. О точных решениях для слоистых трехмерных нестационарных изобарических течений вязкой несжимаемой жидкости // Прикладная механика и техническая физика. - 2019. - Т. 60. - № 6. - С. 65-71.
15. А.Г. Садыкова, Н.М. Зубарев, Г.А. Месяц, Е.А. Осипенко, К.А. Шарыпов, В.Г. Шпак, С.А. Шунайлов, М.И. Яландин. Пробой воздуха в поле бегущей ТЕМ-волны, ассистированный убегающими электронами // Известия вузов. Физика. - 2019. - Т. 62. - № 11. - С. 40-45.
16. В.И. Соломонов, А.В. Спирина, М.П. Попов, М.А. Иванов, А.И. Липчак. Статистический люминесцентный метод определения региона происхождения изумрудов // Оптический журнал. - 2019. - Т. 86. - № 7. - С. 67-73.
17. М.А. Беляев, Н.М. Зубарев, О.В. Зубарева. Ток насыщения стационарного конического образования на поверхности жидкости с ионной проводимостью в электрическом поле // Письма в журнал технической физики. - 2019. - Т. 45. - Вып. 8. - С. 28-30.
18. Е.А. Кочурин. Формирование слабых особенностей на поверхности диэлектрической жидкости в тангенциальном электрическом поле // Письма в Журнал технической физики. - 2019. - т. 45. - № 3. - С. 7-9.
19. Н.М. Зубарев, Е.А. Кочурин. Численное моделирование слабой турбулентности электрокапиллярных волн на поверхности жидкого диэлектрика // Океанологические исследования. - 2019. - Т. 47. - № 1. - С. 55–57.
2018
1. G.Sh. Boltachev, N.B. Volkov, A.V. Spirin, E.A. Chingina. 2D-simulation of Nanopowder High-Speed Compaction // Physical Science International Journal. - 2018. - V. 19(4), pp. 1-8. Article no. PSIJ.45057.
2. V.V. Platonov, E.A. Kochurin, V.V. Osipov, V.V. Lisenkov and N.M. Zubarev. Characteristic properties of laser ablation of translucent targets // Laser Phys. - 2018. - V.28. - № 8. - p. 076002.
3. N.M. Zubarev, O.V. Zubareva. Construction of Exact Solutions for Equilibrium Configurations of the Boundary of a Conducting Liquid Deformed by an External Electric Field // Theoretical and Mathematical Physics. - 2018. - V. 196, no 3, pp. 1392-1403.
4. O.V. Zubareva, N.M. Zubarev, N.B. Volkov. Criteria for disintegration of an uncharged conducting liquid jet in a transverse electric field // Journal of Physics: Conference Series. - 2018. - V. 946, no 012022.
5. M.A. Gashkov, G.A. Mesyats, I.V. Uimanov, N.M. Zubarev. Dynamics of Molten Metal Jet Formation in the Cathode Spot of Vacuum Arc Discharge // Proceedings of 28th International Symposium on Discharges and Electrical Insulation in Vacuum (ISDEIV 2018, IEEE). - 2018. - V. 1, P. 365-368.
6. P.M. Lushnikov, N.M. Zubarev. Exact solutions for nonlinear development of Kelvin-Helmholtz instability for counterflow of superfluid and normal components of Helium II // Physical Review Letters. - 2018. - v. 120, art. no 204504.
7. N.M. Zubarev , M.I. Yalandin, G.A. Mesyats, S.A. Barengolts, A.G. Sadykova, K.A. Sharypov, V.G. Shpak, S.A. Shunailov and O.V. Zubareva. Experimental and theoretical investigations of the conditions for the generation of runaway electrons in a gas diode with a strongly nonuniform electric field // Journal of Physics D - Applied Physics. - 2018. - Volume: 51 Issue: 28 Article Number: 284003.
8. M.A. Gashkov, N.M. Zubarev. Formation of liquid-metal jets in a vacuum arc cathode spot: Analogy with drop impact on a solid surface // Journal of Physics: Conference Series. - 2018. - V. 946, art. no 012131.
9. E.A. Kochurin, N.M. Zubarev. Gravity-capillary waves on the free surface of a liquid dielectric in a tangential electric field // IEEE Transactions on Dielectrics and Electrical Insulation. - 2018. - Vol. 25, No. 5, P. 1723-1730.
10. S.N. Ivanov and V.V. Lisenkov. Investigation of the prebreakdown stage of the self-sustained subnanosecond discharge in high pressure nitrogen // Journal of Applied Physics. - 2018. - Volume 124, Issue 10, p. 103304.
11. S.A. Barengolts, G.A. Mesyats, M.I. Yalandin, N.M. Zubarev, O.V. Zubareva. Ionization Processes with Participation of Runaway Electrons in a Gas Diode with a Strongly Nonuniform Electric Field // IEEE conf. paper; 20th Int. Symp. on High-Current Electronics, Tomsk, 2018. - 2018. - p. 179-184.
12. Kochurin E.A., Zubarev N.M. Jet formation at the interaction of localized waves on the free surface of dielectric liquid in a tangential electric field // Journal of Physics: Conference Series. - 2018. - V. 946, 012021.
13. M.A. Gashkov, G.A. Mesyats, N.M. Zubarev, O.V. Zubareva. Model of the Formation of Liquid-Metal Jets in the Cathode Spot of a Vacuum Arc Discharge // Proceedings of 28th International Symposium on Discharges and Electrical Insulation in Vacuum (ISDEIV 2018, IEEE). - 2018. - V. 1, P. 337-340.
2017
1. G.Sh. Boltachev, K.E. Lukyashin, A.L. Maximenko, R.N. Maksimov, V.A. Shitov, M.B. Shtern. Compaction and flow rule of oxide nanopowders. // Optical materials. – 2017. V. 71. – P. 145-150.
2. N.M. Zubarev, O.V. Zubareva. Deformation of the free surface of a conducting fluid in the magnetic field of current-carrying linear conductors. // J. Magnetism and Magnetic Materials. – 2017. V. 431. – P. 222-225.
3. N.B. Volkov, E.A. Chingina. Electron and phonon spectra dynamics and features of phase transitions in sodium at P=0-100 GPa. // J. Physics: Conference Series. – 2017. V. 830. – Art. No. 012036.
4. Evgeny A. Kochurin. Formation of high pressure gradients at the free surface of a liquid dielectric in a tangential electric field // Procedings of 19th IEEE International Conference on Dielectric Liquids. - 2017. - P. 1-4.
5. N.M. Zubarev, O.V. Zubareva. Formation of rupture in a conducting fluid layer under the action of an oscillating tangential magnetic field. // J. Magnetism and Magnetic Materials. – 2017. V. 431. – P. 226-228.
6. G. Boltachev, N. Volkov, K. Lukyashin, V. Markov, E. Chingina. Influence of particle size distribution on nanopowder cold compaction processes. // IOP Conf. Series: Materials Science and Engineering. – 2017. – V. 208. – Art. No. 012008.
7. V.I. Solomonov, V.V. Osipov, V.A. Shitov, R.N. Maximov, A.I. Lipchak. Optical properties of ytterbium-doped yttrium oxide ceramics. // Physica Status Solidi A. – 2017. – V. 214. – Issue 5. - Art. No. 1600786 (pp. 1-6).
2016
1. N.B. Volkov, E.A. Chingina, A.P. Yalovets. Dynamical equations and transport coefficients for the metals at high pulse electromagnetic fields. // J. Physics.: Conference Series. – 2016. – V. 774. – Art. No. 012147.
2. N.M. Zubarev, O.V. Zubareva. Exact solutions for equilibrium configurations of the surface of a conducting fluid in a nonunoform magnetic field. // Theor. and Math. Physics. - 2016. - Vol. 188. – No. 3. – P. 1394-1400.
3. N.S. Ginzburg, A.M. Malkin, A.S. Sergeev, I.V. Zheleznov, I.V. Zotova, V.Yu. Zaslavsky, G.Sh. Boltachev, K.A. Sharypov, S.A. Shunailov, M.R. Ul’masculov, M.I. Yalandin. Generation of sub-terahertz superradiance pulses based on excitation of a surface wave by relativistic electron bunches moving in oversized corrugated waveguides. // Phys. Rev. Lett. - 2016. - V. 117. – Issue 20. – Art. No. 204801.
4. E.A. Kochurin, V.V. Lisenkov, V.V. Osipov, V.V. Platonov, N.M. Zubarev. On the mechanism of deep craters formation under the action of high power ytterbium-fiber laser. // J. Physics: Conference Series. – 2016. V. 774. – Art. No. 012121.
2015
1. G.Sh. Boltachev, V.V. Rostov, K.A. Sharypov, S.A. Shunailov, V.G. Shpak, M.R. Ulmaskulov, M.I. Yalandin. Control of the operation mode of a relativistic Kα-band backward-wave oscillator. // IEEE Trans. Plasma Sciences. - 2015. - V. 43. - No. 8. - Part 3. - P. 2613-2620.
3. G.Sh. Boltachev, N.B. Volkov, E.A. Kochurin, A.L. Maximenko, M.B. Shtern, E.M. Kirkova. Simulation of the macromechanical behavior of oxide nanopowders during compaction process. // Granular Matter. - 2015. – V. 17. – Issue 3. - P. 345-358.
4. G.A. Mesyats, N.M. Zubarev. The Rayleigh-Plateau instability and jet formation during the extrusion of liquid metal from craters in a vacuum arc cathode spot. // J. Appl. Phys. – 2015. – V. 117. – Art. No. 043302.
5. N.B. Volkov, E.A. Chingina. Therodynamic description of the liquid metals at pulsed energy flows impact. // J. Physics.: Conference Series. – 2015. – V. 653. – Art. No. 012084.
2013
1. E.A. Olevsky, A.A. Bokov, G.Sh. Boltachev, N.B. Volkov, S.V. Zayats, A.M. Ilyina, A.A. Nozdrin, S.N. Paranin. Modeling and optimization of uniaxial magnetic pulse compaction of nanopowders // Acta Mechanica. 2013. V. 224. P. 3177-3195.
2. N.M. Zubarev, O.V. Zubareva, E.A. Kochurin. Formation of curvature singularities on the interface between dielectric liquids in a strong vertical electric field. // Phys. Rev. E. 2013. Vol. 88. Art. no 023014.
3. G.A. Mesyats, N.M. Zubarev. Hydrodynamics of the molten metal in a vacuum arc cathode spot at near-threshold currents. // J. Appl. Phys. 2013. Vol. 113. Art. no 203301.
4. G.Sh. Boltachev, K.E. Lukyashin, V.A. Shitov, N.B. Volkov Three-dimensional simulations of nanopowder compaction processes by granular dynamics method. // Phys. Rev. E. 2013. V. 88. Art. no. 012209.
5. Boltachev G.Sh., Aleshin V.V. Shift and torsion contact problems for arbitrary axisymmetric normal stress distributions. // Int. J. Solids and Structures. 2013. V. 50. No. 19. P. 2894-2900.
6. Boltachev G.Sh., Schmelzer J., Abuzov A.S. Temperature of critical clusters in nucleation theory: Generalized Gibbs' approach. // J. Chem. Physics. 2013. V. 139. No. 3. Art. no. 034702.
7. N.B. Volkov, S.V. Barakhvostov, M.B. Bochkarev, K.A. Nagayev, O.R. Timoshenkova, S.I. Tkachenko. Features of the plasma-channel formation during the voltage generator with the 1-MV/ns-voltage-rise-rate discharge to the vacuum coaxial line containing either closed via microconductor or open-ended gap. // Proc. of the 19th IEEE pulsed Power Conference (PPC) (San Francisco, CA, USA, June , 16 – 21, 2013) . P. 1-6.
2012
1. N.M. Zubarev, O.V. Zubareva. Exact solutions for the shape of a two-dimensional conducting liquid drop in a non-uniform electric field. // Physica D. 2012. V. 241. P. 921-928.
2. Boltachev G.Sh., Volkov N.B., Zubarev N.M. Tangential interaction of elastic spherical particles in contact // Int.J.Solids Struct. 2012. V. 49, No. 15-16. P. 2107-2114.
3. N.B. Volkov, E.A. Chingina, G.Sh. Boltachev. Wide-band two-temperature equation of state for metals at high energy densities. // Physics of Extreme States of Matter – 2012. / Ed. by V.E. Vortov, et al. - Chernogolovka: Institute of Problems of Chemical Physics RAS, 2012. P. 17-19.
2011
1. Boltachev G.Sh., Volkov N.B., Nagayev K.A.. Effect of retardation in the dispersion forces between spherical particles. // J. Colloid Interface Sci., 2011. V. 355. No. 2. P. 417-422.
2010
1. Zubarev N.M., Zubareva O.V. Propagation of large-amplitude waves on dielectric liquid sheets in a tangential electric field: Exact solutions in three-dimensional geometry. Phys. Rev. E, 2010. V. 82. Art. no 046301.
2009
1. Boltachev G.Sh., Kaygorodov A.S., Volkov N.B. Densification of the granular medium by the low amplitude shock waves. Acta Mechanica, 2009, V. 207, PP. 223-234
2. G.Sh. Boltachev, N.B. Volkov, V.V. Ivanov, A.S. Kaygorodov. Shock-wave compaction of the granular medium initiated by magnetically pulsed accelerated striker. Acta Mech. 2009. V. 204. P. 37-50.
2008
1. Boltachev G.Sh., Volkov N.B., Ivanov V.V., Kaygorodov A.S. Shock-wave compaction of the granular medium initiated by magnetically pulsed accelerated striker. Acta Mechanica, 2008
2. Boltachev G.Sh., Zubarev N.M., Zubareva O.V. Space Charge Influence on the Angle of Conical Spikes Developing on a Liquid-Metal Anode. Phys rev e, 2008, № 5, V. 77, PP. 056607
До 2008 г.
1. Zubarev N.M. Self-Similar Solutions for Conic Cusps Formation at the Surface of Dielectric Liquids in Electric Field. // Phys. Rev. E 2002 - Vol. 65. No. 5. Part 2. Art.no. 055301.
2. Zubarev N.M. Criteria for Hard Excitation of Electrohydrodynamic Instabilityof the Free Surface of a Conducting Fluid. // Physica D 2001 - Vol. 152. - P. 787-793.
3. Zubarev N.M. Formation of Root Singularities on the Free Surface of a Conducting Fluid in an Electric Field. // Phys. Lett. A 1998 - Vol. 243 - P. 128-131.
4. Volkov N.B. Zubarev N.M. Zubareva O.V. V.T. Shkatov Repeated Interruption and Restoration of Current in Liquid Metal as a Nonlinear Phenomenon. // Physica D 1997 - Vol. 109 - P. 315-324.
5. Volkov N.B. Zubarev N.M. A.M. Iskoldsky A Model of the Stratification of a Liquid Current-Carrying Conductor. // Phys. Lett. A 1996 - Vol. 217. - P. 330-334.
6. Volkov N.B. Zubareva O.V. A.M. Iskoldsky The Dynamics of Large-Scale Spatial Structures in Current-Carrying Fluids and the Electric Explosion of Conductors. // Physica D, 1996 - Vol. 91. - P. 182-204.
7. Volkov N.B. A.M. Iskoldsky The Dynamics of Vortex Structures and States of Current in Plasma-Like Fluids and the Electrical Explosion of Conductors: 4. Model of the First Splitting Stage of an Exploding Conductor. // J. Phys. A: Math. And Gen., 1995 - Vol. 28. - P. 1789-1797.
8. Volkov N.B. A.M. Iskoldsky The Dynamics of Vortex Structures and States of Current in Plasma-Like Fluids and the Electrical Explosion of Conductors: 1. The model of a Non-Equilibrium Phase Transition. // J. Phys. A: Math. And Gen. 1993 - Vol. 26. - P. 6635-6648.
9. Volkov N.B. A.M. Iskoldsky The Dynamics of Vortex Structures and States of Current in Plasma-Like Fluids and the Electrical Explosion of Conductors: 2. Computer Experiment. // J. Phys. A: Math. And Gen. 1993 - Vol. 26. - P. 6649-6666.
10. Volkov N.B. A.M. Iskoldsky The Dynamics of Vortex Structures and States of Current in Plasma-Like Fluids and the Electrical Explosion of Conductors: 3. Comparison with Experiment J. Phys. A: Math. And Gen.// 1993 - Vol. 26. - P. 6667-6677.
