Laser spectroscopy of magnetic splitting of Pr I levels in the presence of saturation effects

M. Sobolewski; L. Windholz; J. Kwela

doi:10.1140/epjd/s10053-024-00860-4

Laser spectroscopy of magnetic splitting of Pr I levels in the presence of saturation effects

M. Sobolewski, L. Windholz, J. Kwela^*

^*Corresponding author for this work

Institute of Experimental Physics (5110)

Research output: Contribution to journal › Article › peer-review

Abstract

Abstract: Laser spectroscopy is a very precise tool in determining atomic structure data. However, in the case of complex spectra, when the individual components of the spectra cannot be separated, precise analysis is hindered by the appearing saturation effect. Sometimes this effect is so large that the spectrum simulation does not provide precise results. In the present work, we present the analysis of the Zeeman spectra of seven praseodymium lines in the range of 566–652 nm, which were recorded using the LIF technique in the presence of the saturation effect. To analyze these spectra, we used a specially dedicated computer program, which allowed for very accurate matching of the simulated spectrum to the recorded experimental shape. As a result of the conducted research, we determined 14 Lande factor values, 3 of which are new. Graphic Abstract: (Figure presented.)

Original language	English
Article number	67
Journal	The European Physical Journal D
Volume	78
Issue number	6
DOIs	https://doi.org/10.1140/epjd/s10053-024-00860-4
Publication status	Published - Jun 2024

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1140/epjd/s10053-024-00860-4Licence: CC BY 4.0

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title = "Laser spectroscopy of magnetic splitting of Pr I levels in the presence of saturation effects",

abstract = "Abstract: Laser spectroscopy is a very precise tool in determining atomic structure data. However, in the case of complex spectra, when the individual components of the spectra cannot be separated, precise analysis is hindered by the appearing saturation effect. Sometimes this effect is so large that the spectrum simulation does not provide precise results. In the present work, we present the analysis of the Zeeman spectra of seven praseodymium lines in the range of 566–652 nm, which were recorded using the LIF technique in the presence of the saturation effect. To analyze these spectra, we used a specially dedicated computer program, which allowed for very accurate matching of the simulated spectrum to the recorded experimental shape. As a result of the conducted research, we determined 14 Lande factor values, 3 of which are new. Graphic Abstract: (Figure presented.)",

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AU - Sobolewski, M.

AU - Windholz, L.

AU - Kwela, J.

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Y1 - 2024/6

N2 - Abstract: Laser spectroscopy is a very precise tool in determining atomic structure data. However, in the case of complex spectra, when the individual components of the spectra cannot be separated, precise analysis is hindered by the appearing saturation effect. Sometimes this effect is so large that the spectrum simulation does not provide precise results. In the present work, we present the analysis of the Zeeman spectra of seven praseodymium lines in the range of 566–652 nm, which were recorded using the LIF technique in the presence of the saturation effect. To analyze these spectra, we used a specially dedicated computer program, which allowed for very accurate matching of the simulated spectrum to the recorded experimental shape. As a result of the conducted research, we determined 14 Lande factor values, 3 of which are new. Graphic Abstract: (Figure presented.)

AB - Abstract: Laser spectroscopy is a very precise tool in determining atomic structure data. However, in the case of complex spectra, when the individual components of the spectra cannot be separated, precise analysis is hindered by the appearing saturation effect. Sometimes this effect is so large that the spectrum simulation does not provide precise results. In the present work, we present the analysis of the Zeeman spectra of seven praseodymium lines in the range of 566–652 nm, which were recorded using the LIF technique in the presence of the saturation effect. To analyze these spectra, we used a specially dedicated computer program, which allowed for very accurate matching of the simulated spectrum to the recorded experimental shape. As a result of the conducted research, we determined 14 Lande factor values, 3 of which are new. Graphic Abstract: (Figure presented.)

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JO - The European Physical Journal D

JF - The European Physical Journal D

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Laser spectroscopy of magnetic splitting of Pr I levels in the presence of saturation effects

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