Resonant scattering of a photon by an electron in the field of a circularly polarized electromagnetic wave

The gain coefficient in the scattering of the nonrelativistic electrons by ions in the circularly polarized light wave is theoretically studied. The simple analytical formula for the gain coefficient in the medium-field is obtained. It is shown, that the maximum amplification of the wave takes place

In the frame of the Born approximation we theoretically investigate nonresonant scattering of an electron by a muon in the field of elliptically polarized electromagnetic wave in the general relativistic case. It is studied kinematics of a scattering of an electron in resonant and nonresonant region

The gain coefficient of amplified electromagnetic field in the scattering of nonrelativistic electron by a nucleus in the weak-, medium-and strong-field regions of a circularly polarized electromagnetic wave is theoretically investigated. The light amplification effect was discovered in the polar-an

Possibility of amplification of electromagnetic radiation is theoretically studied in the scattering of a quasi-classical electron by an ion in the field of weak linearly polarized wave. Using the limiting process of the total cross-section at small values of adiabaticity parameter to Krainov's form

The theory of nonresonant spontaneous bremsstrahlung by a nonrelativistic electron scattered by a nucleus in the field of a pulsed light wave is developed. The electron interaction with a Coulomb potential of a nucleus is considered in the first order of perturbation theory (the Born approximation),

Simulations of electrons tunneling in a barrier for which the height varies sinusoidally with time show resonances increasing the transmitted current. For square barriers, these resonances occur when electrons are promoted above the barrier by absorbing quanta from the barrier oscillations, and the