Electronic paramagnetic resonance of Gd 3+  ions in a Pb 1-x-y Gd x Cu y S narrow-gap semiconductor: effects of resonance transitions on conductivity

V. А. Ulanov; Уланов В. А.; R. R. Zaynullin; Зайнуллин Р. Р.; I. V. Yatsyk; Яцык И. В.; A. V. Shestakov; Шестаков А. В.; A. М. Sinitsin; Синицин А. М.

doi:10.31857/S0367676524120129

Electronic paramagnetic resonance of Gd³⁺ ions in a Pb_1-x-yGd_xCu_yS narrow-gap semiconductor: effects of resonance transitions on conductivity

作者: Ulanov V.А.¹^,2^,3, Zaynullin R.R.², Yatsyk I.V.¹, Shestakov A.V.⁴, Sinitsin A.М.²
隶属关系:
1. Federal Research Center “Kazan Scientific Center of the Russian Academy of Sciences”
2. Kazan State Power Engineering University
4. Prokhorov General Physics Institute of the Russian Academy of Sciences
期: 卷 88, 编号 12 (2024)
页面: 1919-1925
栏目: Nanooptics, photonics and coherent spectroscopy
URL: https://journals.rcsi.science/0367-6765/article/view/286510
DOI: https://doi.org/10.31857/S0367676524120129
EDN: https://elibrary.ru/EWESUL
ID: 286510

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In a crystals of the narrow-band semiconductor Pb_1-x-yGd_xCu_yS (x = 1.1·10^–3, y = 2.5·10^–3) at temperatures T = 5—300 K, unusual dependences of the shape of the lines of the EPR spectra of paramagnetic centers Gd³⁺ on the temperature and microwave power level in the resonator of EPR-spectrometer were discovered by the electron paramagnetic resonance method. Based on the results of the analysis of the shape parameters of the resonance lines recorded in the X-range, it was concluded that one of the reasons for the unusual changes in the observed EPR spectra of Gd³⁺ centers is the uneven distribution of the acceptor impurity of copper with the formation of regions with different concentrations of free charge carriers. Apparently, in these regions, resonant transitions between the spin states of Gd³⁺ centers have different effects on the values of the kinetic characteristics of free charge carriers, which lead to different contributions to the quasi-resonant absorption of microwave power.

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lead chalcogenide, narrow-gap semiconductor, electron paramagnetic resonance, Gd3+ ion, EPR line shape, conduction electrons

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作者简介

V. Ulanov

Federal Research Center “Kazan Scientific Center of the Russian Academy of Sciences”; Kazan State Power Engineering University;

Email: rrza7@yandex.ru

Zavoisky Physical-Technical Institute

俄罗斯联邦, Kazan; Kazan

R. Zaynullin

Kazan State Power Engineering University

编辑信件的主要联系方式.
Email: rrza7@yandex.ru
俄罗斯联邦, Kazan

I. Yatsyk

Federal Research Center “Kazan Scientific Center of the Russian Academy of Sciences”

Email: rrza7@yandex.ru

Zavoisky Physical-Technical Institute

俄罗斯联邦, Kazan

A. Shestakov

Prokhorov General Physics Institute of the Russian Academy of Sciences

Email: rrza7@yandex.ru
俄罗斯联邦, Moscow

A. Sinitsin

Kazan State Power Engineering University

Email: rrza7@yandex.ru
俄罗斯联邦, Kazan

参考

Равич Ю.И., Ефимова Б.А., Смирнов И.А. Методы исследования полупроводников в применении к халькогенидам свинца PbTe, PbSe и Pb S.М.: Наука, 1968. 384 c.
Dyakonov M.I. // In: Springer Series in Solid-State Sciences. V. 157. Springer International Publishing AG, 2017.
Kossut J., Gaj J.A. Introduction to the physics of diluted magnetic semiconductors. Berlin, Heidelberg: Springer-Verlag, 2010. 469 p.
Teran F.J., Potemski M., Maude D.K. et al. // Physica E. 2003. V. 17. P. 335.
Уланов В.А., Зайнуллин Р.Р., Хушея Т.А.Н., Яцык И.В. // Изв. РАН. Сер. физ. 2021. Т. 85. № 12. C. 1682, Ulanov V.A., Zainullin R.R., Housheya T.A.N., Yatsyk I.V. // Bull. Russ. Acad. Sci. 2021. V. 85. No. 12. P. 1337.
Алексеева Г.Т., Ведерников М.В., Гуриева Е.А. и др. // ФТП. 1998. Т. 32. № 7. C. 806, Alekseeva G.T., Vedernikov M.V., Gurieva E.A. // Semiconductors. 1998. V. 32. No. 7. P. 716.
Заячук Д.М., Добрянский О.А. // ФТП. 1998. Т. 32. № 11. С. 1331, Zayachuk D.M., Dobryanskiǐ O.A. // Semiconductors. 1998. V. 32. No. 11. P. 1185.
Голенищев-Кутузов В.А., Синицин А.М., Лабутина Ю.В., Уланов В.А. // Изв. РАН. Сер. физ. 2018. Т. 82. № 7. С. 852, Golenishchev-Kutuzov V.A., Sinitsin A.M., Labutina Yu.V., Ulanov V.A. // Bull. Russ. Acad. Sci. Phys. 2018. V. 82. No. 7. P. 761.
Уланов В.А., Зайнуллин Р.Р., Синицин А.М. и др. // Изв. РАН. Сер. физ. 2023. Т. 87. № 12. С. 1773, Ulanov V.A., Zainullin R.R., Sinizin A.M. et al. // Bull. Russ. Acad. Sci. 2023. V. 87. No. 12. P. 1856.
Абрагам А., Блини Б. Электронный парамагнитный резонанс переходных ионов. Т. 1. М.: Мир, 1972. 652 с.
Story T. // Phys. Rev. Lett. 1996. V. 77. No. 13. P. 2802.
Vladimirova M., Cronenberger S., Barate P. et al. // Phys. Rev. B. 2008. V. 78. Art. No. 081305(R).

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2. Fig. 1. EPR spectra of a single-crystal sample of Pb1-x-yGdxCuyS, recorded in the orientations <001>ǁ→H0 and <111>ǁ→H0 (fmw = 9419±1 MHz, T = 5 K, Pmw = 2 mW).

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3. Fig. 2. EPR spectra of a single-crystal sample of Pb1-x-yGdxCuyS, recorded in the orientation <001>ǁ→H0 (fmw = 9419±1 MHz, spectra of group (a) were obtained at Pmw = 5 mW, spectra of group (b) – at T = 14 K).

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4. Fig. 3. Angular dependences of the resonance values of the external magnetic field in the studied Pb1-x-yGdxCuyS sample, calculated with the spin Hamiltonian (1): T = 5 K, fmw = 9419 MHz, Pmw = 0.05 mW.

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5. Fig. 4. The result of the simulation of the EPR spectrum of the Pb1-x-yGdxCuyS sample (T = 15 K, f = 9418.7 MHz, H0 ǁ <001>).

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卷 88, 编号 12 (2024)

卷 88, 编号 12 (2024)

Electronic paramagnetic resonance of Gd3+ ions in a Pb1-x-yGdxCuyS narrow-gap semiconductor: effects of resonance transitions on conductivity

全文:

详细

关键词

全文:

作者简介

V. Ulanov

R. Zaynullin

I. Yatsyk

A. Shestakov

A. Sinitsin

参考

补充文件

Electronic paramagnetic resonance of Gd³⁺ ions in a Pb_1-x-yGd_xCu_yS narrow-gap semiconductor: effects of resonance transitions on conductivity