Adiabatic response of neon transitions to laser field variations

In this research, we delve into the ionization dynamics of neon, focusing on the transitions 3 2 → 2 4 and 3 3 → 2 5. Employing the Landau-Dykhne approximation, we elucidate how variations in laser intensity, atomic charge, and wavelength influence the ionization rates. Our study unveils a detailed...

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Bibliographic Details
Published inKragujevac Journal of Science Vol. 46; no. 1; pp. 45 - 57
Main Authors Delibašić-Marković, Hristina, Petrović, Violeta, Petrović, Ivan
Format Journal Article
LanguageEnglish
Published University of Kragujevac, Faculty of Science 2024
Subjects
ionization rate
laser parameters
transition amplitude
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Summary:In this research, we delve into the ionization dynamics of neon, focusing on the transitions 3 2 → 2 4 and 3 3 → 2 5. Employing the Landau-Dykhne approximation, we elucidate how variations in laser intensity, atomic charge, and wavelength influence the ionization rates. Our study unveils a detailed dependency of the ionization process on these laser parameters, affirming the laser's pivotal role in atomic excitations. We discover that while the ionization rates are markedly affected by laser intensity and atomic charge, wavelength variations also significantly alter the transition dynamics. This work emphasizes the minimal impact of relativistic effects in neon, thereby establishing it as an excellent system for examining laser-atom interaction nuances. Our findings provide valuable insights into the quantum mechanical underpinnings of laser-induced ionization, enhancing the theoretical framework and informing future experimental inquiries into such interactions.
ISSN:1450-9636
2466-5509
DOI:10.5937/KgJSci2401045D