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Open Quantum Systems Decoherence
Quantum Chemistry
Laser-driven relativistic tunneling from p-states
arXiv
Authors: Michael Klaiber, Karen Z. Hatsagortsyan
Year
2014
Paper ID
47021
Status
Preprint
Abstract Read
~2 min
Abstract Words
168
Citations
N/A
Abstract
The tunneling ionization of an electron from a p-state in a highly charged ion in the relativistic regime is investigated in a linearly polarized strong laser field. In contrast to the case of an s-state, the tunneling ionization from the p-state is spin asymmetric. We have singled out two reasons for the spin asymmetry: first, the difference of the electron energy Zeeman splitting in the bound state and during tunneling, and second, the relativistic momentum shift along the laser propagation direction during the under-the barrier motion. Due to the latter, those states are predominantly ionized where the electron rotation is opposite to the electron relativistic shift during the under-the-barrier motion. We have investigated the dependence of the ionization rate on the laser intensity for different projections of the total angular momentum and identified the intensity parameter which governs this behaviour. The significant change of the ionization rate is originated from the different precession dynamics of the total angular momentum in the bound state at high and low intensities.
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- This paper contributes to the Quantum Chemistry research area in the Quantum Articles archive.
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- The tunneling ionization of an electron from a p-state in a highly charged ion in the relativistic regime is investigated in a linearly polarized strong laser field.
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