Abstract

We consider the scattering of 50 eV x-rays by hydrogen atoms in the presence of a bichromatic, linearly polarized laser field with frequencies and r, where r = 2,3, = 1.17 eV, and with relative phase between the bichromatic laser field components. Numerical results for the differential cross-section (DCS) as a function of the number n, where n is the energy exchanged with the laser field, are presented. For either a monochromatic laser field or a bichromatic laser field with the frequencies and 3, the integer n can only be even, while for a bichromatic laser field with the frequencies and 2, the integer n can have any value. For small values of |n| we find pronounced maxima in the DCS. For larger |n| we find plateaus which are different for negative and positive values of n. For lower values of the laser field intensity the plateau for negative values of n is much more extended and greater in magnitude than that for positive values of n. The height of either plateau is also higher for the bichromatic laser field than for either monochromatic field. In the (, 2) case we find the symmetry DCS(+) = DCS(). We show that the relative phase influences the DCS so that phase control of the x-ray-atom scattering process is possible. For some values of the energy of the outgoing x-ray photons can be increased. Finally, a quasi-classical explanation of the results is presented.

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