Publications 2016-2021
295. O.E.Vais, S.G.Bochkarev, and V.Yu.Bychenkov, On the Theory of Nonlinear Thomson
Scattering of a Highly Focused Laser Pulse. Bull. Lebedev Phys. Inst., 2016, 43, N1, 16-19.
296. I.I.Metelskii, V.F.Kovalev, and V.Yu.Bychenkov, Nonlinear Plasma Resonance in Inhomogeneous
Relativistic Plasma. Bull. Lebedev Phys. Inst., 2016, 43, N1, 12-15.
297. S.I.Glazyrin, A.S.Kuratov, and V.Yu.Bychenkov, Separation of Ions on the Front of a
Shock Wave in a Multicomponent Plasma. JETP Lett., 2016, 103, N4, 238-243.
298. I.N.Tsymbalov, K.A.Ivanov, R.V.Volkov, A.B.Saveliev, L.S.Novikov, L.I.Galanina, N.P.Chirskaya,
V.Yu.Bychenkov, A.I.Chumakov, Laser-plasma sources of ionizing radiation for simulation
of radiation eects in microelectronic materials and components. Physics and
Chemistry of Materials Treatment, 2016, N1, 25-30 (In Rus.).
299. W.Rozmus, T.Chapman, A.Brantov, B.J.Winjum, R.L.Berger, S.Brunner, V.Yu.Bychenkov,
A.Tableman, M.Tzoufras, and S.Glenzer, Resonance between heat-carrying electrons
and Langmuir waves in inertial confinement fusion plasmas. Phys. Plasmas, 2016, 23,
N1, 012707(1-11).
300. V.Yu.Bychenkov, A.V.Brantov, and E.A.Govras, Comparative study of ion acceleration
by linearly polarized laser pulses from optimized targets of solid and near-critical
density. Plasma Phys. Contr. Fus. Special Issue, 2016, 58, N3, 034022(1 -5).
301. A.V.Brantov, E.A.Govras, V.F.Kovalev, and V.Yu.Bychenkov, Synchronized ion acceleration
by ultraintense slow light. Phys. Rev. Lett., 2016, 116, 085004(1-5).
302. A.V.Brantov, D.V.Romanov, and V.Yu.Bychenkov, Optimization of a laser-based proton
source and a new mechanism of ion acceleration. IEEE Trans. Plasma Sci., 2016,
44, N4, 364 - 368.
303. A.V.Brantov, M.G.Lobok, and V.Yu.Bychenkov, Target optimisation for the yield of
X-rays of desired hardness under femtosecond pulse irradiation. Quantum Electronics,
2016, 46, N4, 342-346.
304. E.I.Ageev, V.Yu.Bychenkov, V.P.Veiko, A.A.Ionin, S. I. Kudryashov, A.A.Petrov, and
A.A.Samokhvalov, Two-pulse femtosecond laser ablation of steel surface with variable
interpulse delay. JETP Lett., 2016, 104, N6, 421-424.
305. E.I.Ageev, V.Yu.Bychenkov, A.A.Ionin, S.I.Kudryashov, A.A.Petrov, A.A.Samokhvalov,
and V.P.Veiko, Double-pulse femtosecond laser peening of aluminum alloy AA5038:
Effect of inter-pulse delay on transient optical plume emission and final surface microhardness.
Appl. Phys. Lett., 2016, 109, N21, 211902(1-4).
306. V.Yu.Bychenkov, A.V.Brantov, and E.A.Govras, Acceleration of ions by "slow" intense
laser light in low-density targets. JETP Lett., 2016, 104, N9, 618-623.
307. O.E.Vais, S.G.Bochkarev, and V.Yu.Bychenkov, Nonlinear Thomson scattering of a
relativistically strong tightly focused ultrashort laser pulse, Plasma Phys. Rep., 2016,
42, N9, 818-833.
308. A.S.Kuratov, A.V.Brantov, Yu.M.Aliev, and V.Yu.Bychenkov, Terahertz emission from
laser-induced charge separation in irradiating plasma target. Quantum Electronics,
2016, 46, N11 1023-1030.
309. I.I.Metelskii, V.F.Kovalev, and V.Yu.Bychenkov, Renormgroup algorithm for the theory
of the relativistic plasma resonance, J. Phys. Conf. Ser., 2016, 769, 012083(1-6).
310. V.Yu.Bychenkov and W.Rozmus, A model of anomalous absorption of laser light on
ion acoustic turbulence. Phys. Plasmas, 2017, 24, N1, 012701(1-8).
311. I.I.Metelskii, V.F.Kovalev, and V.Yu.Bychenkov, Nonlinear relativistic plasma resonance:
renormalization group approach. Plasma Phys. Rep., 2017, 43, N2, 175-190.
312. A.V.Brantov and V.Yu.Bychenkov, Synchronized ion acceleration by ultraintense slow
light and electron source for X-ray production from low-density targets. Plasma Phys.
Contr. Fus. Special Issue, 2017, 59, N3, 034009(1-3).
313. O.E.Vais, S.G.Bochkarev, S. Ter-Avetisyan, and V.Yu.Bychenkov, Angular distribution
of electrons directly accelerated by an intense tightly focused laser pulse. Quantum
Electronics, 2017, 47, N1, 38-41.
314. A.V.Brantov, M.G.Lobok, and V.Yu.Bychenkov, Increase in the yield of hot electrons
and gamma radiation by selecting the thickness of a pre-plasma target irradiated by a
short laser pulse. Quantum Electronics, 2017, 47, N3, 232-235.
315. V.Yu.Bychenkov, P.K.Singh, H.Ahmed, K.F.Kakolee, C.Scullion, T.W.Jeong, P.Hadjisolomou,
A.Alejo, S.Kar, M.Borghesi, and S.Ter-Avetisyan, Ion acceleration in electrostatic field
of charged cavity created by ultra-short laser pulses of 10201021 W/cm2. Phys. Plasmas,
2017, 24, N1, 010704(1-6).
316. A.V.Brantov, E.A.Obraztsova, A.L.Chuvilin, E.D.Obraztsova, and V.Yu.Bychenkov,
Laser-triggered proton acceleration from hydrogenated low-density targets. Phys. Rev.
AB, 2017, 20, N6, 061301(1-6).
317. N.Tsymbalov, K.A.Ivanov, R.V.Volkov, A.B.Savelev, L.S.Novikov, L.I.Galanina, N.P.Chirskaya,
V.Yu. Bychenkov, A.I.Chumakov, Laser-plasma sources of ionizing radiation for simulation
of radiation effects in microelectronic materials and components. Inorganic
Materials: Applied Research, 2017, 8, N3, 359-363.
318. K.A.Ivanov, I.N.Tsymbalov, S.A.Shulyapov, D.A.Krestovskikh, A.V.Brantov, V.Yu.Bychenkov,
R.V.Volkov, and A.B.Savelev, Prepulse controlled electron acceleration from solids by
a femtosecond laser pulse in the slightly relativistic regime. Phys. Plasmas, 2017, 24,
N6, 063109(1-10).
319. K.Ivanov, D.Gozhev, S.Rodichkina, S.V.Makarov, S.S.Makarov, M.Dubatkov, S. Pikuz,
D.Presnov, A.Paskhalov, N.Eremin, A.Brantov, V.Bychenkov, R.Volkov, V.Timoshenko,
S.Kudryashov, and A.Savel'ev, Nanostructured plasmas for enhanced gamma emission
at relativistic laser interaction with solids. Appl. Phys. B, 2017, 123, N 10, 252(1-9).
320. W.Rozmus, A.Brantov, C.Fortmann-Grote, V.Yu.Bychenkov, and S.Glenzer, Electrostatic
uctuations in collisional plasmas. Phys. Rev. E, 2017, 96, 043207(1-15).
321. V.F.Kovalev, S.G.Bochkarev, and V.Yu.Bychenkov, Radial acceleration of ions during
adiabatic expansion of a multicomponent cylindrical plasma, Quantum Electronics,
2017, 47, N11, 1023-1030.
322. A.Brantov, P.A.Ksenofontov, and V.Yu.Bychenkov, Comparison of optimized ion acceleration
from thin foils and low-density targets for linearly and circularly polarized
laser pulses. Phys. Plasmas, 2017, 24, N11, 113102(1-8).
323. W.Rozmus, A.Brantov, M.Sherlock, V.Yu.Bychenkov, Return current instability driven
by a temperature gradient in ICF plasmas. Plasma Phys. Contr. Fus., 2018, 60, N1,
014004(1-6).
324. N.Naseri, S.G.Bochkarev, P.Ruran, and V.Yu.Bychenkov, V.Khudik, and G.Shvets,
Growth and propagation of self-generated magnetic dipole vortices in collisionless
shocks produced by interpenetrating plasmas. Phys. Plasmas, 2018, 25, N1, 012118(1-7).
325. V.F.Kovalev and V.Yu.Bychenkov, Self-focusing of a light beam in a medium with
relativistic nonlinearity: new analytical solutions. JETP Lett., 2018, 107, N8, 458-463.
326. M.G.Lobok, A.V.Brantov, D.A.Gozhev, and V. Yu. Bychenkov, Optimization of electron
acceleration by short laser pulses from low-density targets. Plasma Phys. Contr.
Fus. Special Issue, 2018, 60, N8, 084010(1-5).
327. A.S.Kuratov, A.V.Brantov, Yu.M.Aliev, and V.Yu.Bychenkov, Laser-induced thermoelectric
current as a source of generation of THz surface electromagnetic waves. Quantum
Electronics, 2018, 48, N7, 653-657.
328. S.Ter-Avetisyan, P.K.Singh, K.F.Kakolee, H.Ahmed, T.W.Jeong, C.Scullion, P.Hadjisolomou,
M.Borghesi, and V.Yu.Bychenkov, Ultrashort PW laser pulse interaction with target
and ion acceleration. Nucl. Instrum. Methods Phys. Res. A, 2018, 909, 156-159.
329. S.G.Bochkarev, A.Faenov, T.Pikuz, A.V.Brantov, V.F.Kovalev, I.Skobelev, S.Pikuz,
R.Kodama, K.I.Popov, and V.Yu.Bychenkov, Ion energy spectra directly measured in
the interaction volume of intense laser pulses with clustered plasma. Sci. Rep., 2018,
8, 9404(1-8).
330. V.Yu.Bychenkov, Ion acoustic turbulence driven by return current leads to hot electrons
in laser-produced plasma. Phys. Plasmas, 2018, 25, N10, 102706(1-5).
331. O.E.Vais and V.Yu.Bychenkov, Direct electron acceleration for diagnostics of a laser
pulse focused by an o-axis parabolic mirror. Appl. Phys. B 124, N11, 211(1 -13).
332. K.A.Ivanov, I.N.Tsymbalov, O.E. Vais, S.G.Bochkarev, V.Yu.Bychenkov, and A.B.Savelev,
Accelerated electrons for in-situ peak intensity monitoring of tightly focused femtosecond
laser radiation at high intensities. Plasma Phys. Contr. Fus., 2018, 60, N10, 105011(1-8).
333. A.V.Brantov, A.S.Kuratov, A.Maksimchuk, Yu.M.Aliev, and V.Yu.Bychenkov, Laser
induced THz Sommerfeld waves along metal wire. EPJWeb. Conf., 2018, 195, 03002(1-2).
334. A.S.Kuratov, A.V.Brantov, and V.Yu.Bychenkov, Modeling of laser generation and
propagation of electron bunch along thin irradiated wire. Bull. Lebedev Phys. Inst.,
2018, 45, N11, 346-349.
335. E.A.Govras and V.Yu.Bychenkov, Spectral-dynamic model of expansion of the hot
plasma slab. JETP, 2019, 128, N1, 133-157.
336. S.G.Bochkarev, E.D'Humires, V.T.Tikhonchuk, Ph.Korneev, and V.Yu.Bychenkov,
Stochastic electron heating in an interference field of several laser pulses of a picosecond
duration. Plasma Phys. Contr. Fus., 2019, 61, N2, 025015(1-12).
337. V.F.Kovalev and V.Yu.Bychenkov, Analytical theory of relativistic self-focusing for
Gaussian light beam entering a plasma: renormalization-group approach. Phys. Rev.
E, 2019, 99, N4, 043201(1-12).
338. I.N.Tsymbalov, D.A.Gorlova, V.Yu.Bychenkov, and A.B.Savelev, Electron parametric
instabilities in nonuniform plasma with a strong density gradient excited by femtosecond
laser pulses of subrelativistic intensity. Quantum Electronics, 2019, 49, N4, 386-390.
339. A.V.Brantov, Ph.Korneev, and V.Yu.Bychenkov, Magnetic field generation from a coilshaped
foil by a laser-triggered hot-electron current. Laser Physics Letters, 2019, 16, N6, 066006 (1-5).
340. I.Tsymbalov, D.Gorlova, S.Shulyapov, V.Prokudin, A.Zavorotny, K.Ivanov, R.Volkov,
V.Bychenkov, V.Nedorezov, A.Paskhalov, N.Eremin, and A.Savel'ev, Well collimated
MeV electron beam generation in the plasma channel from relativistic laser-solid interaction.
Plasma Phys. Contr. Fus., 2019, 61, N7, 075016(1 -17).
341. I.I.Metelskii, V.F.Kovalev, and V.Yu.Bychenkov, Higher-order harmonic generation of
laser radiation due to relativistic plasma resonance. Phys. Plasmas, 2019, 26, N11,
113113(1-15).
342. V.Yu.Bychenkov, M.G.Lobok, V.F.Kovalev, and A.V.Brantov, Generation of highcharge
electron beam in a subcritical-density plasma through laser pulse self-trapping.
Plasma Phys. Contr. Fus., 2019, 61, N12, 124004(1-6).
343. M.G.Lobok, A.V.Brantov, and V.Yu.Bychenkov, Effective production of gammas, positrons,
and photonuclear particles from optimized electron acceleration by short laser pulses
in low-density targets. Phys. Plasmas, 2019, 26, N12, 123107(1-11).
344. I.I.Metelskii, V.F.Kovalev, and V.Yu.Bychenkov, Harmonic generation by relativistic
plasma resonance. J. Russian Laser Research, 2019, 40, N5, 429-434.
345. O.E.Vais, A.G.R.Thomas, A.Maksimchuk, K.Krushelnick, and V.Yu.Bychenkov. Characterizing
extreme laser intensities by ponderomotive acceleration of protons from rarified gas. New J. Phys., 2020, 22