Open AccessHigh-harmonic spectroscopy of transient two-center interference calculated with time-dependent density-functional theory
Author(s) -
François Mauger,
Paul M. Abanador,
Timothy D. Scarborough,
Timothy T. Gorman,
Pierre Agostini,
Louis F. DiMauro,
Kenneth A. Lopata,
Kenneth J. Schäfer,
Mette B. Gaarde
Publication year - 2019
Publication title -
structural dynamics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.415
H-Index - 29
ISSN - 2329-7778
DOI - 10.1063/1.5111349
Subject(s) - high harmonic generation , physics , polarization (electrochemistry) , spectroscopy , ionization , harmonic , amplitude , attosecond , harmonic spectrum , interference (communication) , optics , harmonic analysis , laser , computational physics , atomic physics , ultrashort pulse , chemistry , quantum mechanics , telecommunications , computer science , mathematics , ion , channel (broadcasting) , mathematical analysis
We demonstrate high-harmonic spectroscopy in many-electron molecules using time-dependent density-functional theory. We show that a weak attosecond-pulse-train ionization seed that is properly synchronized with the strong driving mid-infrared laser field can produce experimentally relevant high-harmonic generation (HHG) signals, from which we extract both the spectral amplitude and the target-specific phase (group delay). We also show that further processing of the HHG signal can be used to achieve molecular-frame resolution, i.e., to resolve the contributions from rescattering on different sides of an oriented molecule. In this framework, we investigate transient two-center interference in CO 2 and OCS, and how subcycle polarization effects shape the oriented/aligned angle-resolved spectra.
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