Electron diffraction on a traveling wave: “Inelastic Kapitza–Dirac effect”

Avetissian, H. K.

doi:10.1017/s0263034616000380

Cited by 3 publications

(4 citation statements)

References 48 publications

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“…Neglecting the last term in eq. ( 2.4) brings us to a known eikonal approximation, which is used, for instance, in the paper [6]. However, in this case we a priori exclude the singularities of the effective potential as a function of longitudinal particle velocity.…”

Section: Jinst 13 C02018mentioning

confidence: 99%

“…For instance, classical motion of a charged particle in standing laser wave has been deeply analyzed in the work [2], while in our paper [3] the effective potential describing the classical particle trajectory in a laser lattice of arbitrary geometry has been derived. Many papers were devoted to the quantum description of particle interaction in nonuniform electromagnetic fields for both nonrelativistic and relativistic cases (see in [4][5][6] and refs. therein).…”

Section: Introductionmentioning

confidence: 99%

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On a quantum particle in laser channels

2018

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In this paper the effective potential describing interaction of a scalar quantum particle with arbitrary nonuniform laser field is derived for a wide spectrum of the particle energies. The presented method allows to take into account all the features of the effective potential for a scalar particle. The derived expression for effective potential for quantum particle has the same form as the one presented earlier for a classical particle. A special case for channeling of a quantum particle as well as accompanying channeling radiation in a field formed by two crossed plane laser waves is considered. It is shown that relativistic particles moving near the laser channel bottom should be examined as quantum ones at both arbitrarily large longitudinal energies and laser fields of accessible intensities.

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Section: Jinst 13 C02018mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

On a quantum particle in laser channels

2018

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“…one can neglect the term ∼ Γ s C s (t) in Eqs. (95) and the dynamics of electron in the wavefields will be described by the following equation [175]:…”

Section: Phase-latticementioning

confidence: 99%

“…Formula (101) for Cherenkov diffraction in a dielectric medium, which had been received forty years ago [108] and included in the monographs [26] and [33], recently has been considered in the paper [175] because of reproduction of electron diffraction effect on a travelling EM wave in a dielectric medium by the authors of the paper [171], nevertheless represented it as a new phenomenon predicted in the paper [171]. Repeating the results of the paper [108] with the main formula (101) in other way of derivation -within the Helmholtz-Kirchhoff diffraction theory (as was mentioned in Introduction, by the method developed in the paper [172]), authors report in the Abstract that they showed on the possibility of electrons diffraction effect on a travelling EM wave in a dielectric medium.…”

Section: Phase-latticementioning

confidence: 99%

Relativistic Classical and Quantum Nonlinear Phenomena in the Induced Processes on Free Electrons

Avetissian

2017

Preprint

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With the appearance of superpower laser sources of relativistic/ultrarelativistic intensities in the last decade, the laser-QED-vacuum-matter interaction physics has entered a new phase that makes real the observation of many nonlinear quantum electrodynamic (QED) and classical-quantummechanical phenomena revealed more than fore-five decades ago, serious advance in new generation of laser-plasma accelerators of ultrahigh energies, nuclear fusion etc. Hence, the present review article will help explorers-experimentalists in this field to attract attention on the fundamental properties and peculiarities of the dynamics of induced free-free transitions at high and superhigh intensities of stimulated radiation fields. In this connection it is of special interest the induced Cherenkov, Compton, undulator/wiggler coherent processes, as well as cyclotron resonance in a medium -possessing with nonlinear resonances of threshold nature and leading to many important nonlinear effects or applications, which are considered in this review. Contents I. Introduction II. Induced Cherenkov Process with Strong Laser Fields A. Critical Intensity in the Induced Cherenkov Process. Nonlinear Threshold Phenomenon of Particle "Reflection" and Capture B. Laser Acceleration in Gaseous Media. Cherenkov Accelerator C. Cyclotron Resonance in a Medium. Nonlinear Threshold Phenomenon of "Electron Hysteresis" D. Coherent Radiation of Charged Particles in Capture Regime. Cherenkov Amplifier30 III. Quantum Effects in Induced Cherenkov Process A. Quantum Description of "Reflection" Phenomenon. Particle Beam Quantum Modulation at X-Ray Frequencies B. Spin Effects in Induced Cherenkov Process C. Reflection of Electron From the Phase Lattice of Slowed EM Wave D. Quantum Description of Capture Phenomenon in Induced Cherenkov Process E. Quantum Modulation of Charged Particles at Optical Harmonics IV. Vacuum Versions of "Reflection" and Capture Phenomenon A. Induced Nonlinear Compton Process B. Induced Nonlinear Undulator/Wiggler Process C. Inelastic Diffraction of Electron on a Traveling EM Wave D. Diffraction Regime of Electron Coherent Scattering on the Traveling Wave Phase-Lattice E. Bragg Regime of Electron Coherent Scattering on the Traveling Wave

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Effects of beam temperature and plasma frequency on the radiation growth rate of a FEL with a laser wiggler

Esmaeildoost

Jafari

2017

Laser Part. Beams

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‫جعفری‬ ‫ساعد‬ : ‫تحصیلی‬ ‫مدرک‬ ‫پالسما‬ ‫فیزیک‬ ‫دکتری‬ ‫الکترونیک:‬ ‫پست‬ sjafari@guilan.ac.ir  ‫فعالیتها‬ : : ‫عالقه‬ ‫مورد‬ ‫تحقیقاتی‬ ‫های‬ ‫زمینه‬ ‫لیزر‬ ‫برهمکنش‬ ‫پالسما،‬ ‫فیزیک‬ -‫پزشکی.‬ ‫و‬ ‫نانوتکنولوژی‬ ‫در‬ ‫پالسما‬ ‫کاربردهای‬ ‫ای،‬ ‫هسته‬ ‫همجوشی‬ ‫الکترونی،‬ ‫های‬ ‫شتابدهنده‬ ‫پالسما،‬ ‫گیالن‬ ‫دانشگاه‬ ‫فیزیک‬ ‫گروه‬ ‫در‬ ‫علمی‬ ‫هیات‬ ‫عضو‬ ‫شهریور‬ ‫از‬ 98 ‫برتر‬ ‫پژوهشگر‬ ‫سال‬ ‫در‬ ‫گیالن‬ ‫دانشگاه‬ 86 ‫مقاالت‬ ‫کامل‬ ( ‫المللی‬ ‫بین‬ ‫مجالت‬ ‫در‬ ISI :) External magnetic field effect on the growth rate of a plasma loaded free-electron laser N. Esmaeildoost, S. Jafari*, E. Abbasi Eur. Phys. J. Plus 131, 192 (2016) Plasma and cyclotron frequency effects on output power of the plasma wave-pumped free-electron lasers S.H. Zolghadr, S. Jafari* and A. Raghavi Phys. Plasmas 23, 053104 (2016) Self-focusing and self-compression of a laser pulse in the presence of an external tapered magnetized density-ramp plasma N. Saedjalil and S. Jafari* High Enregy Dens. Phys. 19, 48 (2016) Electron energy and electron trajectories in an inverse free-electron laser accelerator based on a novel electrostatic wiggler M. Nikrah and S. Jafari* Laser Phys. 26, 065005 (2016) Electron acceleration based on a laser pulse propagating through plasma in the simultaneous presence of a helical wiggler and an obliquely external magnetic field M. A. Gashti and S. Jafari* Eur. Phys. J. Plus 131, 210 (2016) Fusion energy and stopping power in a degenerate DT pellet driven by a laser-accelerated proton beam Low-frequency wiggler modes in the free-electron laser with a dusty magnetoplasma medium S. Jafari* Laser Phys. Lett. 12 , 075002 (2015) Dispersion relation and growth rate of a relativistic electron beam propagating through a Langmuir wave wiggler Dispersion relation and growth rate in electromagnetically pumped free-electron lasers with ion channel guiding H. Mehdian*, A. Hasanbeigi, S. Jafari Phys. Plasmas 15, 073103 (2008)Steady-state electron trajectories and growth rate in electromagnetically pumped free-electron lasers with specific nonuniform magnetic field

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Electron diffraction on a traveling wave: “Inelastic Kapitza–Dirac effect”

Cited by 3 publications

References 48 publications

On a quantum particle in laser channels

On a quantum particle in laser channels

Relativistic Classical and Quantum Nonlinear Phenomena in the Induced Processes on Free Electrons

Effects of beam temperature and plasma frequency on the radiation growth rate of a FEL with a laser wiggler

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