Research Article
BibTex RIS Cite

Year 2024, , 88 - 93, 30.12.2024

Sophie Kröger , Gönül Başar , İpek Kanat Öztürk , Seda Kın Barka , Laurentius Windholz , Ruvin Ferber

https://doi.org/10.26650/PAR.2024.00009

Abstract

References

  • Al-Labady N., et al., 2017, ApJS, 228, 16 google scholar
  • Başar G., et al., 2017, ApJS, 228, 17 google scholar
  • Başar G., Başar G., Özdalgiç B., Öztürk I. K., Güzelçimen F., Bingöl D., Kröger S., 2020, J. Quant. Spectrosc. Radiative Transfer, 243, 106809 google scholar
  • Barka S. K., Başar G., Kröger S., Başar G., 2024, Spectrochimica Acta - Part B: Atomic Spectroscopy, 216, 106946 google scholar
  • Bingol D., Basar G., Basar G., Kanat Ozturk I., Guzelcimen F., Kın Barka S., Kroger S., 2023, Physics and Astronomy Reports, 1, 85 google scholar
  • Chomski M., Furmann B., Ruczkowski J., Suski M., Stefanska D., 2021, J. Quant. Spectrosc. Radiative Transfer, 274, 107865 google scholar
  • Chomski M., Suski M., Wilman S., Furmann B., Ruczkowski J., Ste-fanska D., 2022, J. Quant. Spectrosc. Radiative Transfer, 279, 108045 google scholar
  • Chomski M., Furmann B., Suski M., Glowacki P., Stefanska D., Mie-loch S., 2023, J. Quant. Spectrosc. Radiative Transfer, 297, 108480 google scholar
  • Furmann B., Stefanska D., Suski M., Wilman S., 2018, J. Quant. Spectrosc. Radiative Transfer, 219, 117 google scholar
  • Furmann B., Stefanska D., Suski M., Wilman S., Chomski M., 2019a, J. Quant. Spectrosc. Radiative Transfer, 234, 115 google scholar
  • Furmann B., Stefanska D., Wilman S., Chomski M., Suski M., 2019b, J. Quant. Spectrosc. Radiative Transfer, 235, 70 google scholar
  • Furmann B., Klempka M., Mieloch S., Stefanska D., 2024, J. Quant. Spectrosc. Radiative Transfer, 316, 108903 google scholar
  • Gorshkov V. N., Komarovskii V. A., 1979, Optics and Spectroscopy, 47, 350 google scholar
  • Kramida A., Ralchenko Y., Reader J., NIST A. T., 2024, NIST Atomic Spectra Database (ver. 5.11), https://physics.nist. gov/asd google scholar
  • Kröger S., Wyart J. F., Luc P., 1997, Phys. Scr., 55, 579 google scholar
  • Özdalgiç B., Güzelçİmen F., Öztürk I. K., Kröger S., Kruzins A., Tamanis M., Ferber R., Başar G., 2019a, ApJS, 240, 27 google scholar
  • Özdalgiç B., et al., 2019b, ApJS, 240, 28 google scholar
  • Özdalgiç B., Başar G., Kröger S., 2019c, ApJS, 244, 41 google scholar
  • Smirnov Y. M., 2013, Optics and Spectroscopy, 114, 485 google scholar
  • Sneden C., Lawler J. E., Cowan J. J., Ivans I. I., Den Hartog E. A., 2009, ApJS, 182, 80 google scholar
  • Stefanska D., Furmann B., 2018, J. Quant. Spectrosc. Radiative Transfer, 206, 286 google scholar
  • Stefanska D., Ruczkowski J., Elantkowska M., Furmann B., 2018a, J. Quant. Spectrosc. Radiative Transfer, 209, 180 google scholar
  • Stefanska D., Furmann B., Glowacki P., 2018b, J. Quant. Spectrosc. Radiative Transfer, 213, 159 google scholar
  • Stone N. J., 2005, Atomic Data and Nuclear Data Tables, 90, 75 google scholar
  • Windholz L., 2016, Phys. Scr., 91, 114003 google scholar
  • Windholz L., Guthöhrlein G. H., 2003, Physica Scripta Volume T, 105, 55 google scholar
  • Windholz L., Başar G., Kröger S., Başar G., 2024, Spectrochimica Acta - Part B: Atomic Spectroscopy, 214, 106900 google scholar
  • Zeiser A., Kröger S., Pooyan-Weis L., Windholz L., Guthöhrlein G., 2022, J. Quant. Spectrosc. Radiative Transfer, 290, 108294 google scholar
  • Zengin M., Barka S. K., Öztürk İ. K., Klincare I., Kröger S., Başar G., 2024, Spectrochimica Acta - Part B: Atomic Spectroscopy, 217, 106950 google scholar

Investigation of Transitions to the Atomic Ground State in Fourier Transform Spectra of Holmium

Year 2024, , 88 - 93, 30.12.2024

Sophie Kröger , Gönül Başar , İpek Kanat Öztürk , Seda Kın Barka , Laurentius Windholz , Ruvin Ferber

https://doi.org/10.26650/PAR.2024.00009

Abstract

The aim of this study was to investigate in more detail some previously published atomic holmium energy levels, which were previously only published with very imprecise values for the level energy 𝐸 and without total angular momentum quantum number 𝐽. By analysing Fourier Transform (FT) spectra in the 317 nm-1750 nm wavelength range using hyperfine structure as a diagnostic tool, we sought to enhance the precision of energy measurements and determine the unknown 𝐽 values. All levels investigated were initially identified through their transitions to the ground state. We have investigated this transition and, if possible, other additional spectral lines that were classified as transitions to the investigated levels. A total of 13 lines from the FT spectra were analysed leading to results for six energy levels. For these six levels a more precise determination of the energy values could be achieved. With the investigation of the hyperfine structure knowledge on their previously unknown 𝐽 values could be achieved. Furthermore, hyperfine structure constants of the investigated energy levels were determined for the first time.

Keywords

laser spectroscopy fine structure hyperfine structure holmium

References

  • Al-Labady N., et al., 2017, ApJS, 228, 16 google scholar
  • Başar G., et al., 2017, ApJS, 228, 17 google scholar
  • Başar G., Başar G., Özdalgiç B., Öztürk I. K., Güzelçimen F., Bingöl D., Kröger S., 2020, J. Quant. Spectrosc. Radiative Transfer, 243, 106809 google scholar
  • Barka S. K., Başar G., Kröger S., Başar G., 2024, Spectrochimica Acta - Part B: Atomic Spectroscopy, 216, 106946 google scholar
  • Bingol D., Basar G., Basar G., Kanat Ozturk I., Guzelcimen F., Kın Barka S., Kroger S., 2023, Physics and Astronomy Reports, 1, 85 google scholar
  • Chomski M., Furmann B., Ruczkowski J., Suski M., Stefanska D., 2021, J. Quant. Spectrosc. Radiative Transfer, 274, 107865 google scholar
  • Chomski M., Suski M., Wilman S., Furmann B., Ruczkowski J., Ste-fanska D., 2022, J. Quant. Spectrosc. Radiative Transfer, 279, 108045 google scholar
  • Chomski M., Furmann B., Suski M., Glowacki P., Stefanska D., Mie-loch S., 2023, J. Quant. Spectrosc. Radiative Transfer, 297, 108480 google scholar
  • Furmann B., Stefanska D., Suski M., Wilman S., 2018, J. Quant. Spectrosc. Radiative Transfer, 219, 117 google scholar
  • Furmann B., Stefanska D., Suski M., Wilman S., Chomski M., 2019a, J. Quant. Spectrosc. Radiative Transfer, 234, 115 google scholar
  • Furmann B., Stefanska D., Wilman S., Chomski M., Suski M., 2019b, J. Quant. Spectrosc. Radiative Transfer, 235, 70 google scholar
  • Furmann B., Klempka M., Mieloch S., Stefanska D., 2024, J. Quant. Spectrosc. Radiative Transfer, 316, 108903 google scholar
  • Gorshkov V. N., Komarovskii V. A., 1979, Optics and Spectroscopy, 47, 350 google scholar
  • Kramida A., Ralchenko Y., Reader J., NIST A. T., 2024, NIST Atomic Spectra Database (ver. 5.11), https://physics.nist. gov/asd google scholar
  • Kröger S., Wyart J. F., Luc P., 1997, Phys. Scr., 55, 579 google scholar
  • Özdalgiç B., Güzelçİmen F., Öztürk I. K., Kröger S., Kruzins A., Tamanis M., Ferber R., Başar G., 2019a, ApJS, 240, 27 google scholar
  • Özdalgiç B., et al., 2019b, ApJS, 240, 28 google scholar
  • Özdalgiç B., Başar G., Kröger S., 2019c, ApJS, 244, 41 google scholar
  • Smirnov Y. M., 2013, Optics and Spectroscopy, 114, 485 google scholar
  • Sneden C., Lawler J. E., Cowan J. J., Ivans I. I., Den Hartog E. A., 2009, ApJS, 182, 80 google scholar
  • Stefanska D., Furmann B., 2018, J. Quant. Spectrosc. Radiative Transfer, 206, 286 google scholar
  • Stefanska D., Ruczkowski J., Elantkowska M., Furmann B., 2018a, J. Quant. Spectrosc. Radiative Transfer, 209, 180 google scholar
  • Stefanska D., Furmann B., Glowacki P., 2018b, J. Quant. Spectrosc. Radiative Transfer, 213, 159 google scholar
  • Stone N. J., 2005, Atomic Data and Nuclear Data Tables, 90, 75 google scholar
  • Windholz L., 2016, Phys. Scr., 91, 114003 google scholar
  • Windholz L., Guthöhrlein G. H., 2003, Physica Scripta Volume T, 105, 55 google scholar
  • Windholz L., Başar G., Kröger S., Başar G., 2024, Spectrochimica Acta - Part B: Atomic Spectroscopy, 214, 106900 google scholar
  • Zeiser A., Kröger S., Pooyan-Weis L., Windholz L., Guthöhrlein G., 2022, J. Quant. Spectrosc. Radiative Transfer, 290, 108294 google scholar
  • Zengin M., Barka S. K., Öztürk İ. K., Klincare I., Kröger S., Başar G., 2024, Spectrochimica Acta - Part B: Atomic Spectroscopy, 217, 106950 google scholar
There are 29 citations in total.

Details

Primary Language English
Subjects Classical Physics (Other)
Journal Section Research Articles
Authors

Sophie Kröger 0000-0003-4991-9176

Gönül Başar 0000-0002-2428-8163

İpek Kanat Öztürk 0000-0002-3664-3388

Seda Kın Barka 0000-0001-5789-1738

Laurentius Windholz 0000-0001-6078-6154

Ruvin Ferber 0000-0002-6313-5768

Publication Date December 30, 2024
Submission Date October 16, 2024
Acceptance Date November 26, 2024
Published in Issue Year 2024

Cite

APA Kröger, S., Başar, G., Kanat Öztürk, İ., Kın Barka, S., et al. (2024). Investigation of Transitions to the Atomic Ground State in Fourier Transform Spectra of Holmium. Physics and Astronomy Reports, 2(2), 88-93. https://doi.org/10.26650/PAR.2024.00009
AMA Kröger S, Başar G, Kanat Öztürk İ, Kın Barka S, Windholz L, Ferber R. Investigation of Transitions to the Atomic Ground State in Fourier Transform Spectra of Holmium. Physics and Astronomy Reports. December 2024;2(2):88-93. doi:10.26650/PAR.2024.00009
Chicago Kröger, Sophie, Gönül Başar, İpek Kanat Öztürk, Seda Kın Barka, Laurentius Windholz, and Ruvin Ferber. “Investigation of Transitions to the Atomic Ground State in Fourier Transform Spectra of Holmium”. Physics and Astronomy Reports 2, no. 2 (December 2024): 88-93. https://doi.org/10.26650/PAR.2024.00009.
EndNote Kröger S, Başar G, Kanat Öztürk İ, Kın Barka S, Windholz L, Ferber R (December 1, 2024) Investigation of Transitions to the Atomic Ground State in Fourier Transform Spectra of Holmium. Physics and Astronomy Reports 2 2 88–93.
IEEE S. Kröger, G. Başar, İ. Kanat Öztürk, S. Kın Barka, L. Windholz, and R. Ferber, “Investigation of Transitions to the Atomic Ground State in Fourier Transform Spectra of Holmium”, Physics and Astronomy Reports, vol. 2, no. 2, pp. 88–93, 2024, doi: 10.26650/PAR.2024.00009.
ISNAD Kröger, Sophie et al. “Investigation of Transitions to the Atomic Ground State in Fourier Transform Spectra of Holmium”. Physics and Astronomy Reports 2/2 (December 2024), 88-93. https://doi.org/10.26650/PAR.2024.00009.
JAMA Kröger S, Başar G, Kanat Öztürk İ, Kın Barka S, Windholz L, Ferber R. Investigation of Transitions to the Atomic Ground State in Fourier Transform Spectra of Holmium. Physics and Astronomy Reports. 2024;2:88–93.
MLA Kröger, Sophie et al. “Investigation of Transitions to the Atomic Ground State in Fourier Transform Spectra of Holmium”. Physics and Astronomy Reports, vol. 2, no. 2, 2024, pp. 88-93, doi:10.26650/PAR.2024.00009.
Vancouver Kröger S, Başar G, Kanat Öztürk İ, Kın Barka S, Windholz L, Ferber R. Investigation of Transitions to the Atomic Ground State in Fourier Transform Spectra of Holmium. Physics and Astronomy Reports. 2024;2(2):88-93.