Publications 2009-2015

220. K.I.Popov, V.Yu.Bychenkov, I.A.Andriyash, R.D.Sydora, and W.Rozmus,
Expansion of two-ion-species spherical plasmas as a source of mono-energetic
ions. J. Plasma \& Fus. Res. Series, 2009, 8, 1226–1229.

221. A.V.Brantov and V.Yu.Bychenkov, Taking into account electron-electron collisions
in classical absorption of short laser pulses. Plasma Phys. Rep., 2009,35, N3, 244–250.

222. K.I.Popov, V.Yu.Bychenkov, W.Rozmus, V.F.Kovalev, R.D.Sydora, Mono-energetic ions from collisionless expansion of spherical multi-species clusters. Laser and Particle Beams, 2009, 27, N2, 321–326.

223. A.V.Brantov, V.T.Tikhonchuk, V.Yu.Bychenkov, and S.G.Bochkarev, Laser
triggered ion acceleration from a double-layer foil. Phys. Plasmas, 2009, 16, N4, 043107(1–8).

224. S.E.Kirkwood, Y.Y.Tsui, R.Fedosejevs, A.V.Brantov, and V.Yu.Bychenkov, Experimental and theoretical study of the absorption of femtosecond laser pulses in interaction with solid copper targets. Phys. Rev. B, 2009, 79, N14, 144120(1–7).

225. K.I.Popov, V.Yu.Bychenkov, W.Rozmus, R.D.Sydora, and S.S.Bulanov, Electron acceleration by a tightly focused laser pulse. Phys. Plasmas, 2009, 16, N5, 053106(1–9).

226. I.A.Andriyash, V.Yu.Bychenkov, K.F.Kovalev, Laser acceleration of light ions from
a thin homogeneous foil of complex atomic composition. Plasma Phys. Rep., 2010,
36, N1, 77–89.

227. Zhen Zheng, W.Rozmus, V.Yu.Bychenkov, A.V.Brantov, and
C.E.Capjack, Nonlocal Transport Model in Equilibrium Two-Component
Plasmas. Phys. Plasmas, 2009, 16, N10, 102301(1–18).

228. A.G.Mordovanakis, J.Easter, N.Naumova, K.Popov, P-E.Masson-Laborde, B.Hou1, I.Sokolov, G.Mourou, I.V.Glazyrin, W.Rozmus, V. Bychenkov, J.Nees, and K.Krushelnick, Quasimonoenergetic electron beams with relativistic energies and ultrashort duration from laser-solid interactions at 0.5 kHz. Phys. Rev. Lett., 2009, 103, N23, 235001(1–4).

229. S.G.Bochkarev, K.I.Popov, and V.Yu.Bychenkov, Direct acceleration of electrons by radially polarized laser pulse. Bull. Lebedev Phys. Inst., 2009, 36, N11, 335–336.

230. I.A.Andriyash and V.Yu.Bychenkov, Laser acceleration of light impurity from
an ultrathin foil of complex ionic composition. Bull. Lebedev Phys. Inst., 2009, 36, N11, 340-341.

231. S.S.Bulanov, A.Maksimchuk, K.Krushelnick, K.I.Popov, V.Yu.Bychenkov, and W.Rozmus, Ensemble of ultra-high intensity attosecond pulses from laser–plasma interaction. Phys. Lett. A, 2010, 374, 476–480.

232. C.McGuffey, A.G.R.Thomas, W.Schumaker, T.Matsuoka, V.Chvykov,
F.J.Dollar, G.Kalintchenko, V.Yanovsky, A.Maksimchuk, K.Krushelnick,
V.Yu.Bychenkov, I.V.Glazyrin, A.V.Karpeev, Ionization induced trapping in a laser
wakefield accelerator. Phys. Rev. Lett., 2010, 104, N2, 025004(1–4).

233. A.Maksimchuk, S.S.Bulanov, A.Brantov, V.Yu.Bychenkov, V.Chvykov, F. Dollar, D. Litzenberg, G.Kalintchenko, T.Matsuoka, S. Reed, V.Yanovsky, and K. Krushelnick, Control of proton energy in ultra-high intensity laser-matter interaction. J. Phys.: Conf. Ser., 2010, 244, 042025 (1–4).

234. A.V.Brantov and V.Yu.Bychenkov, Monoenergetic proton beams from mass limited targets, irradiated by ultrashort laser pulses. Plasma Phys. Rep., 2010, 36, N3, 256–262.

235. S.S.Bulanov, V.Yu.Bychenkov, V.Chvykov, G.Kalinchenko, D.W.Litzenberg, T.Matsuoka, A.G.R.Thomas, L.Willingale, V.Yanovsky, K.Krushelnick, and A.Maksimchuk, Generation of GeV protons from 1 PW laser interaction with near critical density targets. Phys. Plasmas, 2010, 17, 4, 043105(1–8).

236. T.Matsuoka, S.Reed, C.McGuffey, S.S.Bulanov, F.Dollar, L.Willingale,
V.Chvykov, G.Kalinchenko, A.Brantov, V.Yu.Bychenkov, P.Rousseau, V.Yanovsky,
D.W.Litzenberg, K. Krushelnick, and A.Maksimchuk, Energetic electron and ion
generation from interactions of intense laser pulses with laser machined conical
targets. Nucl. Fusion, 2010, 50, N5, 055006(1–11).

237. E.A.Govras, V.Yu.Bychenkov and V.F.Kovalev, Acceleration of light ions from an
expanding ultrathin foil of complex ion composition. Plasma Phys. Rep., 2010,
36, N8, 709–718.

238. N.Naseri, V.Yu.Bychenkov, and W.Rozmus, Axial magnetic field generation by
intense circularly polarized laser pulses in underdense plasmas. Phys. Plasmas,
2010, 17, N8, 083109(1–10).

239. K.I.Popov, V.Yu.Bychenkov, W.Rozmus, and L.Ramunno, A detailed study of
collisionless explosion of single- and two-ion-species spherical nanoplasmas.
Phys. Plasmas, 2010, 17, N8, 083110(1–13).

240.  P.E.Masson-Laborde, W.Rozmus, Z.Peng, D.Pesme, S.Huller, M.Casanova, V.Yu.Bychenkov, .Chapman, and P.Loiseau, Evolution of the stimulated Raman scattering nstability in two-dimensional particle-in-cell simulations. Phys. Plasmas, 2010,
17, N8, 092704(1–13).

241. K.I.Popov, W.Rozmus, V.Yu.Bychenkov, N.Naseri, C.E.Capjack, and A.V.Brantov, Ion esponse to relativistic electron bunches in the blowout regime of laser-plasma
accelerators. Phys. Rev. Lett., 2010, 105, 195002(1–4).

242. A.V.Brantov and V.Yu.Bychenkov, Novel schemes of proton acceleration at ~ 1 PW laser power. Proc. SPIE, 2010, 7993, 79931D.


246. I.A.Sidorov, A.V.Brantov, V.Yu.Bychenkov, D.V.Romanov, and A.B.Savel'ev, 3D PIC
simulation of extreme-intensity light field interaction with plasma media. In: Supercomputer
technologies in science, education and industry (Book 2), MSU, Ed. V. A.
Sadovnichii, G. I. Savin, and V. V. Voevodin, 2010, 182-86 (in Russian).

247. S.G.Bochkarev, K.I.Popov, and V.Yu.Bychenkov, Vacuum electron acceleration by a
tightly focused, radially polarized, relativistically strong laser pulse. Plasma Phys.
Rep., 2011, 37, N7, 603-614.

248. A.V.Brantov, V.Yu.Bychenkov, K.I.Popov, R.Fedosejevs, W.Rozmus, and T.Schlegel,
Comparative analysis of laser-triggered proton generation from overdense and lowdensity
targets. Nucl. Instrum. Methods Phys. Res. A, 2011, 653, 62-65.
249. I.A.Sidorov, A.B.Savelev, M.Yu.Romanovsky, V.Yu.Bychenkov, A.V.Brantov, and D.V.
Romanov, Effective generation of collimated ion beams by relativistic laser pulse using
2D microstructured foils: 3D PIC simulations. Contrib. Plasma Phys., 2011, 51, N5,

250. S.G.Bochkarev, A.V.Brantov, V.Yu.Bychenkov and W.Rozmus, Ultrashort-laser-pulse
absorption with spatial dispersion and nonlocal transport effects. Journal of Russian
Laser Research, 2011, 32, N2, 163-176.

251. V.Yu.Bychenkov and V.F.Kovalev, Relativistic Coulomb explosion of spherical microplasma.
JETP Letters, 2011, 94, N2, 97-100.

252. G.S.Sarkisov, P.Leblanc V.V.Ivanov, Y.Sentoku, V.Yu.Bychenkov, K.Yates, P.Wiewior,
D.Jobe, and R.Spielman, Fountain effect of laser-driven relativistic electrons inside a
solid dielectric. Appl. Phys. Lett., 2011, 99, N13, 131501(1-3).

253. G.S.Sarkisov, V.V.Ivanov, P.Leblanc, Y.Sentoku, K.Yates, P.Wiewior, O.Chalyy, A.Astanovitskiy, V.Y.Bychenkov, and D.Jobe, Laser-driven relativistic electron beam interaction with solid dielectric. AIP Conf. Proc., 2012, 1464, 679-688.

254. D.S.Uryupina, K.A.Ivanov, A.V.Brantov, A.B.Savel'ev, V.Yu.Bychenkov, M.E.Povarnitsyn,
R.V.Volkov, and V.T.Tikhonchuk, Femtosecond laser-plasma interaction with prepulsegenerated
liquid metal micro-jets. Phys. Plasmas, 2012, 19, N1, 013104(1-8).

255. V.F.Kovalev, K.I.Popov, and V.Yu.Bychenkov, New solutions in the theory of selffocusing
with saturating nonlinearity. JETP, 2012, 114, N1, 25-38.

256. D.S.Uryupina, K.A.Ivanov, A.V.Brantov, A.B.Savel'ev, V.Yu.Bychenkov, R.V.Volkov,
and V.T.Tikhonchuk, Femtosecond laser-plasma interaction with prepulse-generated
liquid metal micro-jets. AIP Conf. Proc., 2012, 1465, 79-83.

257. I.V.Glazyrin, A.V.Karpeev, O.G.Kotova, V.Yu.Bychenkov, R.Fedosejevs and W.Rozmus,
Ionization-assisted relativistic electron generation with monoenergetic features from
laser thin foil interaction. AIP Conf. Proc., 2012, 1465, 121-127.

258. V.Yu.Bychenkov, E.A.Govras, A.V.Brantov, and K.I.Popov, High-energy protons from
submicron-sized targets. AIP Conf. Proc., 2012, 1465, 128-132.

259. E.A.Govras, V.Yu.Bychenkov, and A.V.Brantov, Coulomb acceleration of light ions
from homogeneous and layered targets. JETP, 2012, 114, N5, 748-767.

260. S.Ter-Avetisyan, B.Ramakrishna, R.Prasad, M.Borghesi, P.V.Nickles, S.Steinke, M.Schnurer,
K.I.Popov, L.Ramunno, N.V.Zmitrenko, and V. Yu. Bychenkov, Generation of a quasimonoergetic
proton beam from laser-irradiated submicron droplets. Phys. Plasmas, 2012, 19, N7, 073112(1-8).

261. A.V.Brantov, V.Yu.Bychenkov, and W.Rozmus, Electrostatic response of a two-component
plasma with Coulomb collisions. Phys. Rev. Lett., 2012, 108, N20, 205001(1-4).

262. G.S.Sarkisov, V.V.Ivanov, P.Leblanc, Y.Sentoku, K.Yates, P.Wiewior, O.Chalyy, A.Astanovitskiy, V.Yu.Bychenkov, D. Jobe and R. B. Spielman, Propagation of a laser-driven relativistic electron beam inside a solid dielectric. Phys. Rev. E, 2012, 86, N3, 036409(1-11).

263. S.G.Bochkarev, G.V Golovin, D.S.Uryupina, S.A.Shulyapov, A.V.Andriyash, V.Yu.Bychenkov,
and A.B.Savelev, Effect of a short weak prepulse on laser-triggered front-surface heavyion
acceleration. Phys. Plasmas, 2012, 19, N10, 103101(1-7).

264. V.F.Kovalev, V.Yu.Bychenkov, and A.V.Andriyash, Acceleration of impurity ions in
the Coulomb explosion of a relativistic spherical cluster with a complex ion composition.
Plasma Phys. Rep., 2012, 38, N11, 879-890.

265. K.A.Ivanov, S.A.Shulyapov, A.A.Turinge, A.V.Brantov, D.S.Uryupina, R.V.Volkov,
A.V.Rusakov, R.M.Djilkibaev, V.G.Nedorezov, V.Yu.Bychenkov, and A.B.Savel'ev, Xray
diagnostics of ultrashort laser-driven plasma: experiment and simulations. Contrib.
Plasma Phys., 2013, 53, N2, 116-121.

266. A.Brantov, V.Yu.Bychenkov, D.V.Romanov, F.Dollar, A.Maksimchuk, and K.Krushelnick,
High-intensity laser triggered proton acceleration from ultrathin foils, Contrib. Plasma
Phys., 2013, 53, N2, 161-164.

267. A.Brantov and V.Yu.Bychenkov, Laser-Triggered Proton Acceleration From Micro-
Structured thin Targets, Contrib. Plasma Phys., 2013, 53, N10, 731-735.

268. E.d'Humieres, A.Brantov, V.Yu.Bychenkov and V.T.Tikhonchuk, Optimization of lasertarget
interaction for proton acceleration. Phys. Plasmas, 2013, 20, N2, 023103(1-8).

269. A.V.Brantov, V.Yu.Bychenkov, and W.Rozmus, Nonstationary kinetic theory of ion
transport in a plasma for small perturbations. Plasma Phys. Rep., 2013, 39, N5, 364-373.

270. A.V.Brantov and V.Yu.Bychenkov, Nonlocal transport in hot plasma. Part 1. Plasma
Phys. Rep., 2013, 39, N9, 698-744.

271. A.V.Andriash, A.V.Bobylev, A.V.Brantov, V.Yu.Bychenkov, S.A.Karpov, and I.F.Potapenko,
Stochastic simulation of nonlinear kinetic equation with high-frequency electric fi eld.
VANT, 2013, 86, N4, 233-237.

272. E.A.Govras and V.Yu.Bychenkov, On the energy of ions at the expansion of a hot
plasma layer into vacuum. JETP Lett, 2013, 98 N2, 70-75.

273. D.S.Uryupina, A.V.Brantov, K.A.Ivanov, S.A.Shulyapov, A.S.Larkin, M.E.Povarnitsyn,
A.B.Savelev, Yu.G.Sokolovskaya, V.Yu.Bychenkov and V.T.Tikhonchuk, Prepulse induced
microstructured plasma with melted and solid targets: formation, properties &
prospects to relativistic laser-plasma interaction. SPIE Proc., 2013, 8779, 87791(1-11).

274. N. Naseri, D. Pesme, W. Rozmus, V.Yu. Bychenkov, and K. Popov, Channeling of
relativistic laser pulses in underdense plasmas and subsequent electron acceleration.
EPJ Web. Conf., 2013, 59, 17001(1-4).

275. K.A.Ivanov, S.A.Shulyapov, P.A.Ksenofontov, I.N.Tsymbalov, R.V.Volkov, A.B.Savel'ev,
A.V.Brantov, V.Yu.Bychenkov, A A.Turinge, A.M.Lapik, A.V.Rusakov, R.M.Djilkibaev,
and V.G.Nedorezov, Comparative study of ampli fied spontaneous emission and short
pre-pulse impacts onto fast electron generation at sub-relativistic femtosecond laserplasma
interaction. Phys. Plasmas, 2014, 21, N9, 093110(1-10).

276. A.Bobylev, A.Brantov, V.Bychenkov, S.Karpov and I.Potapenko, DSMC modeling of
a single hot spot evolution using the Landau-Fokker-Planck equation. Acta Appl.
Math., 2014, 132, N1, 107-116.

277. K.A.Ivanov, S.A.Shulyapov, A.V.Rusakov, A.A.Turinge, A.V.Brantov, A.B.Savel'ev,
R.M.Dzhilkibaev, V.G.Nedorezov, D.S.Uryupina, R.V.Volkov, and V.Yu.Bychenkov,
Novel photonuclear techniques based on femtosecond lasers. Physics of Particles and
Nuclei Letters, 2014, 11, N1, 54-59.

278. S.G.Bochkarev, A.V.Brantov, V.Yu.Bychenkov, D.V.Torshin, V.F.Kovalev, G.V.Baidin,
and V.A.Lykov, Stochastic electron acceleration in plasma waves driven by a highpower
subpicosecond laser pulse, Plasma Phys. Rep., 2014, 40, N7, 202-214.

279. A.V.Brantov and V.Yu.Bychenkov, Nonlocal transport in hot plasma. Part2. Plasma
Phys. Rep., 2014, 40, N7, 505-563.

280. V.Yu.Bychenkov, A.V.Brantov, G.Mourou, Tc-99m production with ultrashort intense
laser pulses. Laser and Particle Beams, 2014, 32, N4, 605-611.

281. I.N.Tsymbalov, S.A.Shulyapov, A.B.Savel'ev, P.A.Ksenofontov, A.V.Brantov, V.Yu.Bychenkov,
D.V.Romanov, Numerical simulation of relativistic laser driven hot electrons generation
in undercritical pre-plasma. In: Supercomputer technologies in science, education
and industry (Book 6), MSU, Ed. V. A. Sadovnichii, G. I. Savin, and V. V. Voevodin,
2014, 95-102 (in Russian).

282. A.V.Brantov, E.A.Govras, V.Yu.Bychenkov, and W.Rozmus, Ion energy scaling under
optimum conditions of laser plasma acceleration from solid density targets. Phys. Rev.
ST Accel. Beams, 2015, 18, N2, 021301(1-7).

283. V.Yu.Bychenkov, A.V.Brantov, E.A.Govras, and V.F.Kovalev, Laser acceleration of
ions: recent results and prospects for applications. Physics-Uspekhi, 2015, 58, N1, 71-81.

284. N.H.Ibragimov, V.F.Kovalev, S.V.Meleshko and V.Yu.Bychenkov, Group analysis of
kinetic equations in a nonlinear thermal transport problem. Int. J. Nonlinear Mech.,
2015, 71, 1-7.

285. V.Yu.Bychenkov and W.Rozmus, Radiative heat transport instability in a laser produced
inhomogeneous plasma. Phys. Plasmas, 2015, 22, 042702(1-4).

286. V.Yu.Bychenkov and A.V.Brantov, Laser-based proton sources for medical applications.
Eur. Phys. J. Special Topics, 2015, 224, 2621-2624.

287. V.F.Kovalev and V.Yu.Bychenkov, Dynamics of ponderomotive ion acceleration in a
laser-plasma channel. Plasma Phys. Rep., 2015, 41, N4, 343-349.

288. A.V.Brantov and V.Yu.Bychenkov, On the feasibility of increasing the energy of laseraccelerated protons by using low-density targets. Plasma Phys. Rep., 2015, 41, N6, 501-506.

289. S.G.Bochkarev, E.d'Humieres, Ph. Korneev, V.Yu.Bychenkov, V.Tikhonchuk, The
role of electron heating in electromagnetic collisionless shock formation. High Energy
Density Phys., 2015, 17, Part A, 175-182.

290. K.A.Ivanov, A.V.Brantov, S.I.Kudryashov, S.V.Makarov, D.A.Gozhev, R.V.Volkov,
A.A.Ionin, V.Yu.Bychenkov, and A.B.Savelev, Enhanced relativistic laser-plasma coupling
utilizing laser-induced micromodifi ed target. Laser Phys. Lett., 2015, 12, N4, 046005(1-5).

291. I.V.Glazyrin, A.V.Karpeev, O.G.Kotova, K.S.Nazarov, and V.Yu.Bychenkov, Laser
vacuum acceleration of a relativistic electron bunch. Quantum Electronics, 2015, 45,
N6, 551-555.

292. V.F.Kovalev and V.Yu.Bychenkov, Radial acceleration of ions by a laser pulse in a
plasma channel. JETP, 2015, 121, N1, 1-18.

293. E.A.Govras and V.Yu.Bychenkov, Semi-analytical model of thin plasma layer expansion
into vacuum. Bull. Lebedev Phys. Inst., 2015, 42, N6, 176-179.

294. S.A.Shulyapov, K.A.Ivanov, I.N.Tsymbalov, D.A.Krestovskih, A.B.Savelev, P.A.Ksenofontov,A.V.Brantov, and V.Yu.Bychenkov, Parametric waves excitation in relativistic laser-plasmainteractions for electron acceleration. J. Phys.: Conf. Ser., 2015, 653, 012007(1-4).