Nonrelativistic electron scattering on a nucleus in the field of a bichromatic laser pulse

Electron scattering on a nucleus in the field of a bichromatic pulsed laser wave is considered in the nonrelativistic case. The interference effect was detected when an electron scatters in the plane determined by the direction of laser wave propagation and the initial electron momentum. The electron emits and absorbs photons of both waves in a correlated manner in the interference region. Widening of partial differential cross sections is studied near the interference exit angle of the electron. It is shown that the partial probability of stimulated processes in the interference region may be five orders of the magnitude greater than corresponding probability of processes in any other geometry. The results may be experimentally verified, for example, in the FAIR project.