Rescattering induced by intense laser fields is one of the dominant processes in strong-field physics. It was usually described classically or semiclassically. In the present work, we show that the fanlike structures exist in photoelectron momentum distributions even though using the strong field approximation model with the short-range potential. We also investigate the dependence of fanlike structures on the laser intensity. We have performed the detailed analysis on the photoelectron momentum distributions through the quantum-orbit theory.
We theoretically study the photoelectron momentum distributions of the negative hydrogen ions by a pair of time-delayed circularly polarized laser pulses. It is found that the multi-arm helical vortex structures appear in the photoelectron momentum distributions. Moreover, the vortex structures can be adjusted by the laser parameters. The present work is meaningful for the optical control of the laser-induced detachment of negative ions.
We theoretically study the photoelectron momentum spectra of the negative hydrogen ions by few-cycle orthogonally polarized two-color (OTC) laser pulses. It is found that the photoelectron momentum spectra can be effectively manipulated in the polarized plane by few-cycle OTC laser pulses. The results qualitatively agree well with the prediction of the simple man’s model. Finally, the effects of the duration of laser pulse on the photoelectron momentum spectra are discussed. The present work is meaningful for the optical control of the laser induced photodetachment of negative ions.
We theoretically investigate the detachment of silver anions by a few-cycle linearly polarized laser pulse. The results show that the angular distributions of photoelectron obtained by the strong-field approximation model are in good agreement with the recent experimental result. The photoelectron angular distributions are not dependent of the volume effect of a focused laser beam. More interestingly, based on the saddle-point method, the interference patterns in the photodetachment from silver anions are clearly clarified in detail.
We study the momentum spectrum of the photoelectrons detached from H- ions in a linearly polarized few-cycle laser pulse. Based on the SP method, the interference effect of coherent quantum wave packets in the classical propagation step of detachment processes are analyzed, respectively.
The photodetachment of electron from F- ions by a short linearly polarized laser pulse is investigated. It is found that our result from summation over different values of m = 0,±1 is closer agreement with the most recent results from saddlepoint (SP) method and R matrix with time dependence (RMT) method.
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