Nonresonant scattering of relativistic electron by relativistic muon in the pulsed light field

The process of nonresonant scattering of nonrelativistic electron by nonrelativistic muon in the pulsed light field in the frame of the Born approximation is investigated theoretically. The approximation when a pulsewidth is considerably greater than the characteristic time of the wave oscillation i

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

This paper presents a theoretical study of stimulated bremsstrahlung and absorption of an electron scattered by a nucleus in the pulsed light field. The approximation when a pulsewidth is considerably greater than the characteristic time of the wave oscillations is considered. It is shown, that for

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),

We consider one of the mechanisms for electron heating inside large clusters irradiated by a relativistic femtosecond laser pulse. This mechanism is related with the elastic reflection of electrons from the cluster surface in the presence of laser field, under the condition that cluster does not exp