Laser Spectroscopic Investigation of the Hyperfine Structure of Atomic Manganese in the Mid-infrared Wavelength Range

Sophie Kröger; Laurentius Windholz; Gönül Başar

doi:10.26650/PAR.2023.00004

Araştırma Makalesi

Laser Spectroscopic Investigation of the Hyperfine Structure of Atomic Manganese in the Mid-infrared Wavelength Range

Yıl 2023, , 32 - 37, 20.06.2023

Sophie Kröger Laurentius Windholz Gönül Başar

https://doi.org/10.26650/PAR.2023.00004

Öz

The hyperfine structure of atomic manganese was studied with laser induced fluorescence spectroscopy and optogalvanic spectroscopy using a commercial hollow cathode discharge lamp and a fully automated single mode mid-infrared tunable laser diode system in the wavelength range from 1530~nm to 1610~nm. Five spectral lines has been analysed. Magnetic dipole hyperfine structure constants A for seven levels were determined by fitting the hyperfine structure using Voigt profile functions.
For two levels, the A constants were determined experimentally for the first time. For the other levels, the previously published hyperfine structure constants A could be confirmed and the accuracy of the values could be improved.
When comparing our two new experimental A-constants with calculated A-constants from the literature, which originate from a semi-empirical analysis of the odd parity levels in Mn, large deviations were found. Until now, experimental values were missing for a more precise calculation. Our new values offer the possibility for a future optimisation of the calculation.

Anahtar Kelimeler

laser spectroscopy, hyperfine structure, manganese

Kaynakça

Acar G., Başar Gü., Başar Gö., Öztürk I. K., Kröger S., 2005, PhyS, 71, 245 google scholar
Başar Gü., Başar Gö., Acar G., Öztürk I. K., Kröger S., 2003, PhyS, 67, 476 google scholar
Blackwell-Whitehead R., Pickering J., Pearse O., 2005, ApJS, 157, 402 google scholar
Brodzinski T., Kronfeldt H.D., Kropp J.R., Winkler R., 1987, ZPhyD, 7, 161 google scholar
Elantkowska M., Ruczkowski J., Glowacki P., Stefanska D., 2022, JQSRT, 292, 108347 google scholar
Faisal M., Windholz L., Kröger S., 2020, JQSRT, 245, 106873 google scholar
Glowacki P., Stefanska D., Ruczkowski J., Elantkowska M., 2020a, JQSRT, 253, 107138 google scholar
Glowacki P., Stefanska D., Elantkowska M., Ruczkowski J., 2020b, JQSRT, 249, 107013 google scholar
Glowacki P., Stefanska D., Ruczkowski J., Elantkowska M., Chomski M., Furmann B., 2022, JQSRT, 287, 108245 google scholar
Klose A., Minamisono K., Mantica P.F., 2013, PhRvA, 88, 042701 google scholar
Lederer C.M., Shirley V.S., 1978, Tables of Isotopes, 7th ed.; Wiley: New York, US google scholar
Lefebvre P.-H., Garnir H.-P., Biemont E., 2003, A&A, 404, 1153 google scholar
Melendez J., 1999, MNRAS, 307, 197 google scholar
Sobolewski L.M., Windholz L., Kwela J., Drozdowski R., 2019, JQSRT, 237, 106639 google scholar
Sobolewski L.M., Windholz L., Kwela J., 2020, JQSRT, 242, 106769 google scholar
Windholz, L., Guthöhrlein G.H., 2003, PhST, 105, 55 google scholar
Windholz, L., 2016, PhyS, 91, 114003 google scholar
Zeiser A., Kröger S., Pooyan-Weis L., Windholz L., Guthöhrlein G.,2022, JQSRT, 290, 108294 google scholar

Yıl 2023, , 32 - 37, 20.06.2023

Sophie Kröger Laurentius Windholz Gönül Başar

https://doi.org/10.26650/PAR.2023.00004

Öz

Kaynakça

Acar G., Başar Gü., Başar Gö., Öztürk I. K., Kröger S., 2005, PhyS, 71, 245 google scholar
Başar Gü., Başar Gö., Acar G., Öztürk I. K., Kröger S., 2003, PhyS, 67, 476 google scholar
Blackwell-Whitehead R., Pickering J., Pearse O., 2005, ApJS, 157, 402 google scholar
Brodzinski T., Kronfeldt H.D., Kropp J.R., Winkler R., 1987, ZPhyD, 7, 161 google scholar
Elantkowska M., Ruczkowski J., Glowacki P., Stefanska D., 2022, JQSRT, 292, 108347 google scholar
Faisal M., Windholz L., Kröger S., 2020, JQSRT, 245, 106873 google scholar
Glowacki P., Stefanska D., Ruczkowski J., Elantkowska M., 2020a, JQSRT, 253, 107138 google scholar
Glowacki P., Stefanska D., Elantkowska M., Ruczkowski J., 2020b, JQSRT, 249, 107013 google scholar
Glowacki P., Stefanska D., Ruczkowski J., Elantkowska M., Chomski M., Furmann B., 2022, JQSRT, 287, 108245 google scholar
Klose A., Minamisono K., Mantica P.F., 2013, PhRvA, 88, 042701 google scholar
Lederer C.M., Shirley V.S., 1978, Tables of Isotopes, 7th ed.; Wiley: New York, US google scholar
Lefebvre P.-H., Garnir H.-P., Biemont E., 2003, A&A, 404, 1153 google scholar
Melendez J., 1999, MNRAS, 307, 197 google scholar
Sobolewski L.M., Windholz L., Kwela J., Drozdowski R., 2019, JQSRT, 237, 106639 google scholar
Sobolewski L.M., Windholz L., Kwela J., 2020, JQSRT, 242, 106769 google scholar
Windholz, L., Guthöhrlein G.H., 2003, PhST, 105, 55 google scholar
Windholz, L., 2016, PhyS, 91, 114003 google scholar
Zeiser A., Kröger S., Pooyan-Weis L., Windholz L., Guthöhrlein G.,2022, JQSRT, 290, 108294 google scholar

Toplam 18 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Genel Fizik
Bölüm	Araştırma Makalesi
Yazarlar	Sophie Kröger 0000-0003-4991-9176 Laurentius Windholz 0000-0001-6078-6154 Gönül Başar 0000-0002-2428-8163
Yayımlanma Tarihi	20 Haziran 2023
Gönderilme Tarihi	30 Nisan 2023
Yayımlandığı Sayı	Yıl 2023

Kaynak Göster

APA	Kröger, S., Windholz, L., & Başar, G. (2023). Laser Spectroscopic Investigation of the Hyperfine Structure of Atomic Manganese in the Mid-infrared Wavelength Range. Physics and Astronomy Reports, 1(1), 32-37. https://doi.org/10.26650/PAR.2023.00004
AMA	Kröger S, Windholz L, Başar G. Laser Spectroscopic Investigation of the Hyperfine Structure of Atomic Manganese in the Mid-infrared Wavelength Range. Physics and Astronomy Reports. Haziran 2023;1(1):32-37. doi:10.26650/PAR.2023.00004
Chicago	Kröger, Sophie, Laurentius Windholz, ve Gönül Başar. “Laser Spectroscopic Investigation of the Hyperfine Structure of Atomic Manganese in the Mid-Infrared Wavelength Range”. Physics and Astronomy Reports 1, sy. 1 (Haziran 2023): 32-37. https://doi.org/10.26650/PAR.2023.00004.
EndNote	Kröger S, Windholz L, Başar G (01 Haziran 2023) Laser Spectroscopic Investigation of the Hyperfine Structure of Atomic Manganese in the Mid-infrared Wavelength Range. Physics and Astronomy Reports 1 1 32–37.
IEEE	S. Kröger, L. Windholz, ve G. Başar, “Laser Spectroscopic Investigation of the Hyperfine Structure of Atomic Manganese in the Mid-infrared Wavelength Range”, Physics and Astronomy Reports, c. 1, sy. 1, ss. 32–37, 2023, doi: 10.26650/PAR.2023.00004.
ISNAD	Kröger, Sophie vd. “Laser Spectroscopic Investigation of the Hyperfine Structure of Atomic Manganese in the Mid-Infrared Wavelength Range”. Physics and Astronomy Reports 1/1 (Haziran 2023), 32-37. https://doi.org/10.26650/PAR.2023.00004.
JAMA	Kröger S, Windholz L, Başar G. Laser Spectroscopic Investigation of the Hyperfine Structure of Atomic Manganese in the Mid-infrared Wavelength Range. Physics and Astronomy Reports. 2023;1:32–37.
MLA	Kröger, Sophie vd. “Laser Spectroscopic Investigation of the Hyperfine Structure of Atomic Manganese in the Mid-Infrared Wavelength Range”. Physics and Astronomy Reports, c. 1, sy. 1, 2023, ss. 32-37, doi:10.26650/PAR.2023.00004.
Vancouver	Kröger S, Windholz L, Başar G. Laser Spectroscopic Investigation of the Hyperfine Structure of Atomic Manganese in the Mid-infrared Wavelength Range. Physics and Astronomy Reports. 2023;1(1):32-7.