@article{Budewig23, author={Laura Budewig and Sang-Kil Son and Robin Santra}, title={State-resolved ionization dynamics of neon atom induced by x-ray free-electron-laser pulses}, journal={Phys. Rev. A}, volume={107}, pages={013102}, year={2023}, keywords={Ne; x-ray multiphoton ionization; state-resolved; ionization dynamics; Monte-Carlo; HFS; XATOM; CFEL; DESY;}, url={https://doi.org/10.1103/PhysRevA.107.013102}, doi={10.1103/PhysRevA.107.013102}, abstract={We present a theoretical framework to describe state-resolved ionization dynamics of neon atoms driven by ultraintense x-ray free-electron-laser pulses. In general, x-ray multiphoton ionization dynamics of atoms have been described by time-dependent populations of the electronic configurations visited during the ionization dynamics, neglecting individual state-to-state transition rates and energies. Combining a state-resolved electronic-structure calculation, based on first-order many-body perturbation theory, with a Monte Carlo rate-equation method enables us to study state-resolved dynamics based on time-dependent state populations. Our results demonstrate that configuration-based and state-resolved calculations provide similar charge-state distributions, but the differences are visible when resonant excitations are involved, which are also reflected in calculated time-integrated electron and photon spectra. In addition, time-resolved spectra of ions, electrons, and photons are analyzed for different pulse durations to explore how frustrated absorption manifests itself during the ionization dynamics of neon atoms.}
}
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doi:10.1103/PhysRevA.107.013102