On the problems of relativistic laboratory astrophysics and fundamental physics with super powerful lasers

The ways toward modeling of astrophysical processes and extreme field regimes with super-power lasers are discussed. The main attention is paid to the problem of limited similarity in using the dimensionless parameters characterizing the processes in the laser and astrophysical plasmas. As the most typical examples, we address the magnetic reconnection and collisionless shock waves relevant to the problem of ultrarelativistic particle acceleration. In the extreme field limits we consider the regimes of dominant radiation reaction, changing the electromagnetic wave-matter interaction. In these regimes it, in particular, results in a new powerful source of ultra high-brightness gamma-rays and will make possible electron-positron pair creation in vacuum in a multiphoton processes. This will allow modeling under terrestrial laboratory conditions the processes in astrophysical objects and paves the way to experimental verifications using ultra intense lasers as they are currently developed within the ELI project.

[1]  D. Koopman,et al.  POSSIBLE OBSERVATIONS OF COLLISIONLESS ELECTROSTATIC SHOCKS IN LASER- PRODUCED PLASMAS. , 1967 .

[2]  A M Fedotov,et al.  Limitations on the attainable intensity of high power lasers. , 2010, Physical review letters.

[3]  Paul Gibbon,et al.  High-order harmonics from laser-irradiated plasma surfaces , 2009 .

[4]  M. Dieckmann,et al.  Electron surfing acceleration by the electron two-stream instability in a weak magnetic field , 2006 .

[5]  Helmi Malova,et al.  Quasiadiabatic dynamics of charged particles in a space plasma , 2013 .

[6]  S. V. Bulanov,et al.  Optics in the relativistic regime , 2006 .

[7]  G. Kichigin The surfatron acceleration of cosmic rays in the galactic plasma , 2001 .

[8]  G. Mourou,et al.  Emission and its back-reaction accompanying electron motion in relativistically strong and QED-strong pulsed laser fields. , 2010, Physical review. E, Statistical, nonlinear, and soft matter physics.

[9]  T. Ebisuzaki,et al.  Astrophysical ZeV acceleration in the relativistic jet from an accreting supermassive blackhole , 2013, 1306.0970.

[10]  S. V. Bulanov,et al.  Dependence of the ion energy on the parameters of the laser pulse and target in the radiation-pressure-dominated regime of acceleration , 2010 .

[11]  K. Midorikawa Ultrafast dynamic imaging , 2011 .

[12]  A. V. Gordeev,et al.  Nonquasineutral current equilibria as elementary structures of plasma dynamics , 2010 .

[13]  Enrico Fermi,et al.  On the Origin of the Cosmic Radiation , 1949 .

[14]  A. Einstein Zur Elektrodynamik bewegter Körper , 1905 .

[15]  Hideaki Takabe,et al.  Electrostatic and electromagnetic instabilities associated with electrostatic shocks: Two-dimensional particle-in-cell simulation , 2010, 1003.1217.

[16]  Ferenc Krausz,et al.  Laser-driven soft-X-ray undulator source , 2009 .

[17]  Jonathan Arons,et al.  THE MAXIMUM ENERGY OF ACCELERATED PARTICLES IN RELATIVISTIC COLLISIONLESS SHOCKS , 2013, 1301.5333.

[18]  Lev M. Zelenyi,et al.  Regular and chaotic charged particle motion in magnetotaillike field reversals: 1. Basic theory of trapped motion , 1989 .

[19]  J. Dawson,et al.  Unlimited Electron Acceleration in Laser-Driven Plasma Waves , 1983 .

[20]  W. Dittrich Probing the Quantum Vacuum , 2000 .

[21]  G. Mourou,et al.  Relativistic generation of isolated attosecond pulses in a lambda 3 focal volume. , 2004, Physical review letters.

[22]  J. Koga,et al.  Nonlinear Thomson scattering with strong radiation damping , 2006, Journal of Plasma Physics.

[23]  N. Woolsey,et al.  High-Mach number collisionless shock and photo-ionized non-LTE plasma for laboratory astrophysics with intense lasers , 2008 .

[24]  Stepan Bulanov,et al.  Strong Radiation-Damping Effects in a Gamma-Ray Source Generated by the Interaction of a High-Intensity Laser with a Wakefield-Accelerated Electron Beam , 2012 .

[25]  R. P. Drake,et al.  Self-organized electromagnetic field structures in laser-produced counter-streaming plasmas , 2012, Nature Physics.

[26]  S. Gus'kov Fast ignition of inertial confinement fusion targets , 2013 .

[27]  S. V. Bulanov,et al.  Enhancement of photon number reflected by the relativistic flying mirror. , 2009, Physical review letters.

[28]  T. Ditmire,et al.  Quasi-monoenergetic laser-plasma acceleration of electrons to 2 GeV , 2013, Nature Communications.

[29]  L. Zelenyi,et al.  Generation of the energetic proton and electron bursts in planetary magnetotails , 1990 .

[30]  G. Dunne,et al.  Stokes phenomenon and schwinger vacuum pair production in time-dependent laser pulses. , 2010, Physical review letters.

[31]  J. Meyer-ter-Vehn,et al.  Laser wake field acceleration: the highly non-linear broken-wave regime , 2002 .

[32]  Francesco Pegoraro,et al.  Interaction of an ultrashort, relativistically strong laser pulse with an overdense plasma , 1994 .

[33]  O Willi,et al.  Observation of collisionless shocks in laser-plasma experiments. , 2008, Physical review letters.

[34]  F. Pegoraro,et al.  Radiation reaction effects on radiation pressure acceleration , 2010, 1008.1685.

[35]  R. P. Drake,et al.  Experimental astrophysics with high power lasers and Z pinches , 2004 .

[36]  M. Ablowitz,et al.  Nonlinear shallow ocean-wave soliton interactions on flat beaches. , 2012, Physical review. E, Statistical, nonlinear, and soft matter physics.

[37]  James Koga,et al.  Interaction of electromagnetic waves with plasma in the radiation-dominated regime , 2004 .

[38]  Peter Lebedew,et al.  Untersuchungen über die Druckkräfte des Lichtes , 1901 .

[39]  C. Capjack,et al.  Fast ignitor concept with light ions , 2001 .

[40]  V. Ginzburg Issues in intense-field quantum electrodynamics , 1987 .

[41]  T. Tajima,et al.  Laser Electron Accelerator , 1979 .

[42]  V. S. Beskin,et al.  Magnetohydrodynamic models of astrophysical jets , 2010 .

[43]  Eric Ronald Priest,et al.  Magnetic Reconnection: Unsteady Reconnection: The Tearing Mode , 2000 .

[44]  Mikhail V Medvedev Constraint on electromagnetic acceleration of highest energy cosmic rays. , 2003, Physical review. E, Statistical, nonlinear, and soft matter physics.

[45]  E. S. Weibel,et al.  Spontaneously Growing Transverse Waves in a Plasma Due to an Anisotropic Velocity Distribution , 1959 .

[46]  H. Gies,et al.  Dynamically assisted Schwinger mechanism. , 2008, Physical review letters.

[47]  Dieter Walz,et al.  Studies of nonlinear QED in collisions of 46.6 GeV electrons with intense laser pulses , 1999 .

[48]  Eugene N. Parker,et al.  Cosmical Magnetic Fields: Their Origin and their Activity , 2019 .

[49]  Lev Davidovich Landau,et al.  Quantum Electrodynamics , 1982, Quantum Field Theory.

[50]  S. V. Bulanov,et al.  Bow wave from ultraintense electromagnetic pulses in plasmas. , 2008, Physical review letters.

[51]  G. Blumenthal,et al.  BREMSSTRAHLUNG, SYNCHROTRON RADIATION, AND COMPTON SCATTERING OF HIGH- ENERGY ELECTRONS TRAVERSING DILUTE GASES. , 1970 .

[52]  L. Sedov Similarity and Dimensional Methods in Mechanics , 1960 .

[53]  A. Bell,et al.  Possibility of prolific pair production with high-power lasers. , 2008, Physical review letters.

[54]  S. V. Bulanov,et al.  Regular mechanisms of electron and ion acceleration in the interaction of strong electromagnetic waves with a plasma , 1990 .

[55]  J. Gunn,et al.  Acceleration of high-energy cosmic rays by pulsars. , 1969 .

[56]  V. D. Mur,et al.  e+e−-pair production by a focused laser pulse in vacuum , 2004, hep-ph/0403163.

[57]  S. V. Bulanov,et al.  Ion acceleration, magnetic field line reconnection, and multiple current filament coalescence of a relativistic electron beam in a plasma , 2002 .

[58]  P. Corkum,et al.  Plasma perspective on strong field multiphoton ionization. , 1993, Physical review letters.

[59]  V. Popov,et al.  REVIEWS OF TOPICAL PROBLEMS: Tunnel and multiphoton ionization of atoms and ions in a strong laser field (Keldysh theory) , 2004 .

[60]  M. Abramowitz,et al.  Handbook of Mathematical Functions With Formulas, Graphs and Mathematical Tables (National Bureau of Standards Applied Mathematics Series No. 55) , 1965 .

[61]  Julian Schwinger,et al.  On gauge invariance and vacuum polarization , 1951 .

[62]  G. Werner,et al.  Gamma-ray flares in the Crab Nebula: A case of relativistic reconnection? , 2013, 1401.3016.

[63]  G. Breit,et al.  Collision of Two Light Quanta , 1934 .

[64]  M. Kando,et al.  On the design of experiments for the study of extreme field limits in the interaction of laser with ultrarelativistic electron beam , 2011 .

[65]  T. Imazono,et al.  Soft-x-ray harmonic comb from relativistic electron spikes , 2012 .

[66]  M. D. Perry,et al.  Fast ignition by intense laser-accelerated proton beams. , 2001, Physical review letters.

[67]  Gerard Mourou,et al.  Generation and characterization of the highest laser intensities (1022 W/cm2) , 2004, CLEO 2004.

[68]  P. Shukla,et al.  Electron surfing acceleration by mildly relativistic beams: wave magnetic field effects , 2008 .

[69]  T. Piran Acceleration of jets by radiation pressure , 1982 .

[70]  G. Mourou,et al.  Anomalous radiative trapping in laser fields of extreme intensity. , 2013, Physical review letters.

[71]  Peter A. Norreys,et al.  High harmonic generation in the relativistic limit , 2006 .

[72]  P. Goldreich On the Radiative Acceleration of Quasar Absorption Line Clouds , 1978 .

[73]  Tae Jun Yu,et al.  Transition of proton energy scaling using an ultrathin target irradiated by linearly polarized femtosecond laser pulses. , 2013, Physical review letters.

[74]  K. Witte,et al.  Generation of MeV electrons and positrons with femtosecond pulses from a table-top laser system , 2002 .

[75]  V. L. Ginzburg,et al.  The propagation of electromagnetic waves in plasmas , 1970 .

[76]  V. S. Popov,et al.  Multiple colliding electromagnetic pulses: a way to lower the threshold of e+ e- pair production from vacuum. , 2010, Physical review letters.

[77]  S. V. Bulanov,et al.  Special relativity in action in laser produced plasmas , 2005 .

[78]  S. Syrovatskii Pinch Sheets and Reconnection in Astrophysics , 1981 .

[79]  Plasma wakefield acceleration for ultrahigh-energy cosmic rays. , 2002, Physical review letters.

[80]  F. Longo,et al.  Gamma-Ray Flares from the Crab Nebula , 2010, Science.

[81]  H. Malova,et al.  Thin current sheets in collisionless plasma: Equilibrium structure, plasma instabilities, and particle acceleration , 2011 .

[82]  Jianqiang Zhu,et al.  Modelling loop-top X-ray source and reconnection outflows in solar flares with intense lasers , 2010 .

[83]  Stabilisation of BGK modes by relativistic effects , 2006, physics/0603048.

[84]  N. Narozhny,et al.  Electron-positron pair production by electromagnetic pulses , 2006 .

[85]  R. A. D. Grundy,et al.  Collisionless shock and supernova remnant simulations on VULCAN , 2001 .

[86]  B. Kadomtsev,et al.  Magnetic field line reconnection , 1987 .

[87]  Toshiki Tajima,et al.  Light intensification towards the Schwinger limit. , 2003, Physical review letters.

[88]  Eric Esarey,et al.  Ion acceleration from thin foil and extended plasma targets by slow electromagnetic wave and related ion-ion beam instability , 2012 .

[89]  H. Daido,et al.  Review of laser-driven ion sources and their applications , 2012, Reports on progress in physics. Physical Society.

[90]  Z. Sheng,et al.  Three-dimensional fast magnetic reconnection driven by relativistic ultraintense femtosecond lasers. , 2014, Physical review. E, Statistical, nonlinear, and soft matter physics.

[91]  Abraham Loeb,et al.  Generation of Magnetic Fields in the Relativistic Shock of Gamma-Ray Burst Sources , 1999, astro-ph/9904363.

[92]  F Longo,et al.  Discovery of Powerful Gamma-Ray Flares from the Crab Nebula , 2011, Science.

[93]  A. Sakharov,et al.  Effect of the magnetic field on the resonant particle acceleration , 2000 .

[94]  S. V. Bulanov,et al.  Interaction of electromagnetic waves with caustics in plasma flows. , 2008, Physical review. E, Statistical, nonlinear, and soft matter physics.

[95]  Min Sup Hur,et al.  Flying mirror model for interaction of a super-intense nonadiabatic laser pulse with a thin plasma layer: Dynamics of electrons in a linearly polarized external field , 2007 .

[96]  F. Pegoraro,et al.  Photon bubbles and ion acceleration in a plasma dominated by the radiation pressure of an electromagnetic pulse. , 2007, Physical review letters.

[97]  Felix A. Aharonian,et al.  Extremely fast acceleration of cosmic rays in a supernova remnant , 2007, Nature.

[98]  V. Lykov,et al.  Estimates of electron-positron pair production in the interaction of high-power laser radiation with high-Z targets , 1998, physics/9909034.

[99]  S. Samsonov,et al.  Radiation and radiative damping of a charged plane, oscillating with a relativistic velocity , 1995 .

[100]  Zulfikar Najmudin,et al.  Proton deflectometry of a magnetic reconnection geometry , 2010 .

[101]  S. V. Bulanov,et al.  On the breaking of a plasma wave in a thermal plasma. II. Electromagnetic wave interaction with the breaking plasma wave , 2012, Physics of Plasmas.

[102]  M Borghesi,et al.  Highly efficient relativistic-ion generation in the laser-piston regime. , 2004, Physical review letters.

[103]  T. Arber,et al.  Laser absorption in relativistically underdense plasmas by synchrotron radiation. , 2012, Physical review letters.

[104]  Super-Eddington Atmospheres That Do Not Blow Away , 2000, astro-ph/0012360.

[105]  Fritz Sauter,et al.  Über das Verhalten eines Elektrons im homogenen elektrischen Feld nach der relativistischen Theorie Diracs , 1931 .

[106]  S. Bulanov Pair production by a circularly polarized electromagnetic wave in a plasma. , 2003, Physical review. E, Statistical, nonlinear, and soft matter physics.

[107]  M Kando,et al.  Demonstration of laser-frequency upshift by electron-density modulations in a plasma wakefield. , 2007, Physical review letters.

[108]  Nikolay N. Rosanov,et al.  Forward light reflection from a moving inhomogeneity , 2011 .

[109]  P. Browning,et al.  Particle acceleration at an X‐type reconnection site with a parallel magnetic field , 2001 .

[110]  G. Petrov,et al.  Finite spot effects on radiation pressure acceleration from intense high-contrast laser interactions with thin targets. , 2012, Physical review letters.

[111]  S. V. Bulanov,et al.  New epoch in the charged particle acceleration by relativistically intense laser radiation , 2006 .

[112]  Strong field electrodynamics of a thin foil , 2013, 1310.5181.

[113]  Wolfgang Baumjohann,et al.  Collisionless magnetic reconnection in space plasmas , 2013, Front. Physics.

[114]  W. Heisenberg,et al.  Consequences of Dirac's theory of positrons , 2006 .

[115]  Francesco Pegoraro,et al.  Nonlinear electrodynamics of the interaction of ultra-intense laser pulses with a thin foil , 1998 .

[116]  The Porous Atmosphere of eta Carinae. , 2000, The Astrophysical journal.

[117]  S. S. Bulanov,et al.  Electromagnetic cascade in high-energy electron, positron, and photon interactions with intense laser pulses , 2013, 1306.1260.

[118]  M. C. Maccarone,et al.  Correlation of the highest energy cosmic rays with nearby extragalactic objects , 2007 .

[119]  M. Hoshino,et al.  Explosive turbulent magnetic reconnection. , 2013, Physical review letters.

[120]  S. V. Bulanov,et al.  Magnetic Field Line Reconnection in Weakly Ionized Plasmas , 1998 .

[121]  V. Krasnoselskikh,et al.  Nonstationarity of strong collisionless quasiperpendicular shocks: Theory and full particle numerical simulations , 2002 .

[122]  M. Hoshino,et al.  Electron acceleration in a nonrelativistic shock with very high Alfvén Mach number. , 2013, Physical review letters.

[123]  Paul Gibbon,et al.  Relativistically correct hole-boring and ion acceleration by circularly polarized laser pulses , 2009 .

[124]  Tabak,et al.  Absorption of ultra-intense laser pulses. , 1992, Physical review letters.

[125]  Jeremiah P. Ostriker,et al.  Particle Acceleration by Astrophysical Shocks , 1978 .

[126]  A. Bell The acceleration of cosmic rays in shock fronts – I , 1978 .

[127]  Evgenii Mikhailovich Lifshitz,et al.  THE PROPAGATION OF ELECTROMAGNETIC WAVES , 1984 .

[128]  Anthony Bell,et al.  Monte Carlo calculations of pair production in high-intensity laser–plasma interactions , 2010, 1010.4584.

[129]  S. V. Bulanov,et al.  Transverse-Wake Wave Breaking , 1997 .

[130]  O Willi,et al.  Plasma jets driven by ultraintense-laser interaction with thin foils. , 2008, Physical review letters.

[131]  Enrico Fermi,et al.  Galactic Magnetic Fields and the Origin of Cosmic Radiation. , 1954 .

[132]  F. Pegoraro,et al.  Spatial structure and time evolution of the Weibel instability in collisionless inhomogeneous plasmas , 1997 .

[133]  Gregory V. Vereshchagin,et al.  Electron-positron pairs in physics and astrophysics: from heavy nuclei to black holes , 2009, 0910.0974.

[134]  S. V. Bulanov,et al.  Fast Ion Generation by High-Intensity Laser Irradiation of Solid Targets and Applications , 2006 .

[135]  S. V. Bulanov,et al.  Fundamental Physics and Relativistic Laboratory Astrophysics with Extreme Power Lasers , 2012, 1202.4552.

[136]  M. Hoshino,et al.  Three-dimensional evolution of a relativistic current sheet: triggering of magnetic reconnection by the guide field. , 2005, Physical review letters.

[137]  Timur Zh. Esirkepov,et al.  Relativistic mirrors in plasmas. Novel results and perspectives , 2013, Physics-Uspekhi.

[138]  P P Rajeev,et al.  Laser-generated ultrashort multimegagauss magnetic pulses in plasmas. , 2002, Physical review letters.

[139]  Andrea Macchi,et al.  "Light sail" acceleration reexamined. , 2009, Physical review letters.

[140]  L. Zelenyi,et al.  Mechanisms of Spontaneous Reconnection: From Magnetospheric to Fusion Plasma , 2013 .

[141]  Vladimir Chvykov,et al.  Relativistic plasma shutter for ultraintense laser pulses. , 2009, Applied physics letters.

[142]  A limiting case in the theory of radiative equilibrium , 1925 .

[143]  Tatsufumi Nakamura,et al.  On extreme field limits in high power laser matter interactions: radiation dominant regimes in high intensity electromagnetic wave interaction with electrons , 2013, Europe Optics + Optoelectronics.

[144]  B. Vorontsov-Velyaminov Note Concerning Milburn's Nebula , 1934 .

[145]  S. V. Bulanov,et al.  On the ion acceleration by high power electromagnetic waves in the radiation pressure dominated regime , 2009 .

[146]  Hui Chen,et al.  Relativistic quasimonoenergetic positron jets from intense laser-solid interactions. , 2010, Physical review letters.

[147]  J. Dungey LXXVI. Conditions for the occurrence of electrical discharges in astrophysical systems , 1953 .

[148]  M. Berry,et al.  Semiclassically weak reflections above analytic and non-analytic potential barriers , 1982 .

[149]  W. Rozmus,et al.  Ensemble of ultra-high intensity attosecond pulses from laser-plasma interaction , 2009, 0911.4767.

[150]  Yu. V. Kornev,et al.  A new method for studying the process of sublimation of metals , 1957 .

[151]  M. V. Medvedev,et al.  Interpenetrating Plasma Shells: Near-Equipartition Magnetic Field Generation and Nonthermal Particle Acceleration , 2003, astro-ph/0307500.

[152]  S. Bulanov An exactly solvable problem in electrodynamics , 1975 .

[153]  T. Arber,et al.  Dense electron-positron plasmas and ultraintense γ rays from laser-irradiated solids. , 2012, Physical review letters.

[154]  T. Speiser Particle trajectories in model current sheets: 1. Analytical solutions , 1965 .

[155]  B. Kadomtsev,et al.  On the Stability of Solitary Waves in Weakly Dispersing Media , 1970 .

[156]  H. Takabe,et al.  Nonthermal Acceleration of Charged Particles due to an Incoherent Wakefield Induced by a Large-Amplitude Light Pulse , 2008 .

[157]  D Neely,et al.  Ion acceleration in multispecies targets driven by intense laser radiation pressure. , 2012, Physical review letters.

[158]  O. Shorokhov,et al.  Coherent focusing of high harmonics: a new way towards the extreme intensities. , 2005, Physical review letters.

[159]  S. V. Bulanov,et al.  Schwinger limit attainability with extreme power lasers. , 2010, Physical review letters.

[160]  J. Schwinger THE QUANTUM CORRECTION IN THE RADIATION BY ENERGETIC ACCELERATED ELECTRONS. , 1954, Proceedings of the National Academy of Sciences of the United States of America.

[161]  W. Heisenberg,et al.  Folgerungen aus der Diracschen Theorie des Positrons , 1936 .

[162]  J. J. Hester,et al.  The Crab Nebula: An Astrophysical Chimera , 2008 .

[163]  K. Z. Hatsagortsyan,et al.  Extremely high-intensity laser interactions with fundamental quantum systems , 2011, 1111.3886.

[164]  V. A. Dogiel,et al.  Astrophysics of cosmic rays , 1990 .

[165]  E. Esarey,et al.  Optimized laser pulse profile for efficient radiation pressure acceleration of ions , 2012, 1208.5201.

[166]  C. Labaune,et al.  Hole boring in a DT Pellet and Fast-Ion Ignition with Ultraintense Laser Pulses. , 2009, Physical review letters.

[167]  B. Coppi,et al.  Dynamics of the Geomagnetic Tail , 1966 .

[168]  Derek A. Tidman,et al.  Shock waves in collisionless plasmas , 1971 .

[169]  M. Honda,et al.  Two-dimensional particle-in-cell simulation for magnetized transport of ultra-high relativistic currents in plasma , 2000 .

[170]  M Uesaka,et al.  Radiation damping effects on the interaction of ultraintense laser pulses with an overdense plasma. , 2002, Physical review letters.

[171]  A. Zhidkov,et al.  Relativistic spherical plasma waves , 2011, 1101.5179.

[172]  S. V. Bulanov,et al.  Possibility of measuring photon-photon scattering via relativistic mirrors , 2012 .

[173]  J. Arons Photon bubbles - Overstability in a magnetized atmosphere , 1992 .

[174]  S. V. Bulanov,et al.  Generation of a Small-Scale Quasi-Static Magnetic Field and Fast Particles during the Collision of Electron-Positron Plasma Clouds , 1998 .

[175]  D. Habs,et al.  Relativistic laser-matter interaction and relativistic laboratory astrophysics , 2008, 0812.1421.

[176]  Hiroyuki Daido,et al.  Generation of high-energy attosecond pulses by the relativistic-irradiance short laser pulse interacting with a thin foil , 2006 .

[177]  D W Litzenberg,et al.  Accelerating monoenergetic protons from ultrathin foils by flat-top laser pulses in the directed-Coulomb-explosion regime. , 2008, Physical review. E, Statistical, nonlinear, and soft matter physics.

[178]  S. Gus'kov Direct ignition of inertial fusion targets by a laser-plasma ion stream , 2001 .

[179]  A. Frank Dynamics of current sheets underlying flare-type events in magnetized plasmas , 2010 .

[180]  E. A. Milne On the possibility of the emission of high-speed atoms from the sun and stars , 1926 .

[181]  Structurally unstable magnetic configurations in the three-dimensional geometry , 2003 .

[182]  Georg Korn,et al.  ELI Extreme Light Infrastructure science and technology with ultra-intense lasers , 2013, CLEO: 2013.

[183]  C. Fälthammar Laboratory experiments of magnetospheric interest , 1974 .

[184]  Eric Esarey,et al.  Physics of laser-driven plasma-based electron accelerators , 2009 .

[185]  Xiaojun Xu,et al.  Effects of long-range magnetic interactions on DLA aggregation , 2005 .

[186]  Pisin Chen,et al.  Magnetowave induced plasma wakefield acceleration for ultrahigh energy cosmic rays. , 2007, Physical review letters.

[187]  R. Treumann Fundamentals of collisionless shocks for astrophysical application, 1. Non-relativistic shocks , 2009 .

[188]  N. Rosanov Transformation of electromagnetic radiation at moving inhomogeneities of a medium , 2008 .

[189]  Timur Zh. Esirkepov,et al.  Nonlinear Thomson scattering in the strong radiation damping regime , 2005 .

[190]  E. M. Lifshitz,et al.  Classical theory of fields , 1952 .

[191]  K. Nakamura,et al.  GeV electron beams from a centimetre-scale accelerator , 2006 .

[192]  Yoshiaki Kato,et al.  Frequency multiplication of light back-reflected from a relativistic wake wave , 2007 .

[193]  Phillips,et al.  Photonuclear fission from high energy electrons from ultraintense laser-solid interactions , 2000, Physical review letters.

[194]  M Kando,et al.  Unlimited ion acceleration by radiation pressure. , 2010, Physical review letters.

[195]  Marco Borghesi,et al.  Electric field detection in laser-plasma interaction experiments via the proton imaging technique , 2001 .

[196]  P. Shukla,et al.  Nonlinear collective effects in photon-photon and photon-plasma interactions , 2006 .

[197]  S. Wilks,et al.  Petawatt laser absorption bounded , 2014, Nature Communications.

[198]  S. V. Bulanov,et al.  Lorentz-Abraham-Dirac versus Landau-Lifshitz radiation friction force in the ultrarelativistic electron interaction with electromagnetic wave (exact solutions). , 2011, Physical review. E, Statistical, nonlinear, and soft matter physics.

[199]  V. S. Beskin,et al.  Physics of the pulsar magnetosphere , 1986 .

[200]  K. Greisen End to the cosmic ray spectrum , 1966 .

[201]  H. Takabe,et al.  Numerical study of pair creation by ultraintense lasers , 2002 .

[202]  B. Shen,et al.  Radiation-reaction trapping of electrons in extreme laser fields. , 2014, Physical review letters.

[203]  L. Drury,et al.  Nonlinear theory of diffusive acceleration of particles by shock waves , 2001 .