Related papers: Impact of the continuum Coulomb interaction in quantum-orbit-based treatments of high-order above-threshold ionization

Impact of the continuum Coulomb interaction in quantum-orbit-based treatments of high-order above-threshold ionization

URL: http://arxiv.org/abs/2312.04989v2
Date: Wed, 21 Feb 2024 15:33:39 GMT
Title: Impact of the continuum Coulomb interaction in quantum-orbit-based treatments of high-order above-threshold ionization
Authors: T. Rook, D. Habibovi\'c, L. Cruz Rodriguez, D. B. Milo\v{s}evi\'c, C. Figueira de Morisson Faria
Abstract summary: We compare photoelectron momentum distributions computed with the rescattered-quantum orbit strong-field approximation (RQSFA) and the Coulomb-quantum orbit strong-field approximation (CQSFA) We show that Coulomb effects are not significant for high or medium photoelectron energies and shorter orbits, while, for lower momentum ranges or longer electron excursion times in the continuum, the residual Coulomb potential is more important.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We perform a systematic comparison between photoelectron momentum distributions computed with the rescattered-quantum orbit strong-field approximation (RQSFA) and the Coulomb-quantum orbit strong-field approximation (CQSFA). We exclude direct, hybrid, and multiple scattered CQSFA trajectories, and focus on the contributions of trajectories that undergo a single act of rescattering. For this orbit subset, one may establish a one-to-one correspondence between the RQSFA and CQSFA contributions for backscattered and forward-scattered trajectory pairs. We assess the influence of the Coulomb potential on the ionization and rescattering times of specific trajectory pairs, kinematic constraints determined by rescattering, and quantum interference between specific pairs of trajectories. We analyze how the Coulomb potential alters their ionization and return times, and their interference in photoelectron momentum distributions. We show that Coulomb effects are not significant for high or medium photoelectron energies and shorter orbits, while, for lower momentum ranges or longer electron excursion times in the continuum, the residual Coulomb potential is more important. We also assess the agreement of both theories for different field parameters, and show that it improves with the increase of the wavelength.

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