Relativistic electron motion in the electromagnetic Gaussian beam that propagates along a stationary magnetic field is studied. It is shown that, if the cyclotron resonance conditions are initially satisfied, electrons can be efficiently accelerated over a relatively small interval at a slightly lower rate than in a plane accelerating wave. © 2000 MAIK "Nauka/Interperiodica"
The autoresonant mechanism of acceleration of relativistic electrons by combined Gaussian laser radi...
The autoresonant mechanism of acceleration of relativistic electrons by combined Gaussian laser radi...
Resonant acceleration of plasma electrons in combined circularly polarized Gaussian laser fields and...
Relativistic electron motion in the electromagnetic Gaussian beam that propagates along a stationary...
The electron motion at cyclotron resonance in the presence of a homogeneous time dependent magnetic ...
The electron motion at cyclotron resonance in the presence of a homogeneous time dependent magnetic ...
In this paper, the cyclotron autoresonance acceleration of electrons in a stationary inhomogeneous m...
In this paper, the cyclotron autoresonance acceleration of electrons in a stationary inhomogeneous m...
In this paper, the cyclotron autoresonance acceleration of electrons in a stationary inhomogeneous m...
The effect of an electrostatic field parallel to a static magnetic field on the cyclotron resonance ...
Abstract. The motion of a charged particle driven by an electromagnetic pulse of elliptical polariza...
Salamin YI, Faisal F, Keitel CH. Exact analysis of ultrahigh laser-induced acceleration of electrons...
An autoresonance electron acceleration phenomenon in the combined steady-state inhomogeneous magneti...
We propose a mechanism for electron acceleration in which circularly polarized electromagnetic waves...
Electron acceleration and short-wavelength radiation generation by an intense, short, linearly polar...
The autoresonant mechanism of acceleration of relativistic electrons by combined Gaussian laser radi...
The autoresonant mechanism of acceleration of relativistic electrons by combined Gaussian laser radi...
Resonant acceleration of plasma electrons in combined circularly polarized Gaussian laser fields and...
Relativistic electron motion in the electromagnetic Gaussian beam that propagates along a stationary...
The electron motion at cyclotron resonance in the presence of a homogeneous time dependent magnetic ...
The electron motion at cyclotron resonance in the presence of a homogeneous time dependent magnetic ...
In this paper, the cyclotron autoresonance acceleration of electrons in a stationary inhomogeneous m...
In this paper, the cyclotron autoresonance acceleration of electrons in a stationary inhomogeneous m...
In this paper, the cyclotron autoresonance acceleration of electrons in a stationary inhomogeneous m...
The effect of an electrostatic field parallel to a static magnetic field on the cyclotron resonance ...
Abstract. The motion of a charged particle driven by an electromagnetic pulse of elliptical polariza...
Salamin YI, Faisal F, Keitel CH. Exact analysis of ultrahigh laser-induced acceleration of electrons...
An autoresonance electron acceleration phenomenon in the combined steady-state inhomogeneous magneti...
We propose a mechanism for electron acceleration in which circularly polarized electromagnetic waves...
Electron acceleration and short-wavelength radiation generation by an intense, short, linearly polar...
The autoresonant mechanism of acceleration of relativistic electrons by combined Gaussian laser radi...
The autoresonant mechanism of acceleration of relativistic electrons by combined Gaussian laser radi...
Resonant acceleration of plasma electrons in combined circularly polarized Gaussian laser fields and...
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