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Analysis of RABITT time delays using the stationary multiphoton molecular R-matrix approach

Benda J.; Mašín Z.; Gorfinkiel J.D.

We employ the recently developed multiphoton R-matrix method for molecular above-threshold photoionization to obtain second-order ionization amplitudes that govern the interference in RABITT experiments. This allows us to extract RABITT time delays that are in better agreement with nonperturbative time-dependent simulations of this process than the typically used combination of first-order (Wigner) delays and asymptotic corrections. We calculate molecular-frame as well as orientation-averaged RABITT delays for H2, N2, CO2, H2O, and N2O and analyze the origin of various structures in the time delays including the effects of partial-wave interference, shape resonances, and orientation averaging. Time delays for B and C states of CO2+ are strongly affected by absorption of the second (IR) photon in the ion. This effect corresponds to an additional contribution τcoupl to the asymptotic approximation for the RABITT delays τ ≈ τmol + τcc + τcoupl. Applicability of the asymptotic theory depends on the target and IR photon energy but typically starts at approximately 30–35 eV of XUV photon energy.
type:article
journal:Phys. Rev. A
volume:105
nr:5
pages:19
year:2022
month:5
grants:New mechanisms of damage of DNA driven by electrons and ultraviolet light, GAČR 20-15548Y; 2020-2022; hlavní řešitel: Zdeněk Mašín
New mechanisms of damage of DNA driven by electrons and ultraviolet light, Primus/20/SCI/003; 2020-2022; hlavní řešitel: Zdeněk Mašín
files:
physreva105(2022)053101_bendaj,masinz - analysis of rabitt time delays using the stationar.pdf (7226.77 kB)

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