Theory of Laser-Assisted Nuclear Excitation by Electron Capture

Bilous, Pavlo

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Theory of Laser-Assisted Nuclear Excitation by Electron Capture

MPG-Autoren

Bilous, Pavlo
Marquardt Division, Max Planck Institute for the Science of Light, Max Planck Society;

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2210.07708.pdf
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Bilous, P. (2022). Theory of Laser-Assisted Nuclear Excitation by Electron Capture. arXiv, 2210.07708.

Zitierlink: https://hdl.handle.net/21.11116/0000-000C-92FB-4

Zusammenfassung

The interplay of x-ray ionization and atomic and nuclear degrees of freedom is investigated theoretically in the process of laser-assisted nuclear excitation by electron capture. In the resonant process of nuclear excitation by electron capture, an incident electron recombines into a vacancy in the atomic shell with simultaneous nuclear excitation. Here we investigate the specific scenario in which the free electron and the required atomic shell hole
are generated by an x-ray free electron laser pulse. We develop a theoretical description based on the Feshbach projection operator formalism and consider numerically experimental scenarios at the SACLA x-ray free electron laser. Our numerical results for excitation of the 29.2 keV nuclear state in
$^{229}\text{Th}$ and the 14.4 keV M\"ossbauer transition in $^{57}\text{Fe}$
show low excitation rates but strong enhancement with respect to direct two
photon nuclear excitation.