Мақаланы E-mail арқылы жіберу Effect of Magnetic Field on Thermal Conductivity of Nitrogen-Doped Diamond
- Авторлар: Inyushkin A.V.1, Ralchenko V.G.2, Bolshakov A.P.2, Taldenkov A.N.1, Chernodubov D.A.1, Konov V.I.2
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Мекемелер:
- National Research Center Kurchatov Institute
- Prokhorov Institute of General Physics of the Russian Academy of Sciences
- Шығарылым: Том 521, № 1 (2025)
- Беттер: 39-43
- Бөлім: ФИЗИКА
- URL: https://bioethicsjournal.ru/2686-7400/article/view/684385
- DOI: https://doi.org/10.31857/S2686740025020039
- EDN: https://elibrary.ru/GORAJL
- ID: 684385
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Аннотация
The measurement of the thermal conductivity κ(T) of a single crystal of nitrogen-doped diamond in the temperature range from 6 to 92 K in a magnetic field of 14 T is reported. A weak effect of the magnetic field on κ(T) at low temperatures is found. The process of phonon scattering on bound charge carriers of an impurity under conditions of strong Zeeman splitting is discussed.
Негізгі сөздер
Авторлар туралы
A. Inyushkin
National Research Center Kurchatov Institute
Хат алмасуға жауапты Автор.
Email: inyushkin_av@nrcki.ru
Ресей, Moscow
V. Ralchenko
Prokhorov Institute of General Physics of the Russian Academy of Sciences
Email: vg_ralchenko@mail.ru
Ресей, Moscow
A. Bolshakov
Prokhorov Institute of General Physics of the Russian Academy of Sciences
Email: inyushkin_av@nrcki.ru
Ресей, Moscow
A. Taldenkov
National Research Center Kurchatov Institute
Email: inyushkin_av@nrcki.ru
Ресей, Moscow
D. Chernodubov
National Research Center Kurchatov Institute
Email: inyushkin_av@nrcki.ru
Ресей, Moscow
V. Konov
Prokhorov Institute of General Physics of the Russian Academy of Sciences
Email: inyushkin_av@nrcki.ru
Academician of the RAS
Ресей, MoscowӘдебиет тізімі
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- Suzuki K., Mikoshiba N. Effects of uniaxial stress and magnetic field on the low-temperature thermal conductivity of p-type Ge and Si // J. Phys. Soc. Jpn. 1971. V. 31. № 1. P. 44–53. https://doi.org/10.1143/JPSJ.31.44
- Erratum: Effects of uniaxial stress and magnetic field on the low-temperature thermal conductivity of p-type Ge and Si // J. Phys. Soc. Jpn. 1972. V. 32. № 2. P. 586(E). https://doi.org/10.1143/JPSJ.32.586A
- Challis L.J., Halbo L. Evidence for a Jahn-Teller effect in p-Ge from magnetothermal conductivity measurements // Phys. Rev. Lett. 1972. V. 28. № 13. P. 816–819. https://doi.org/10.1103/PhysRevLett.28.816
- Challis L.J., Heraud A.P. Magnetothermal conductivity of boron-doped-silicon // Proc. 4th International Conference on Phonon Scattering in Condensed Matter, University of Stuttgart, Germany, August 22–26, 1983. Eds: W. Eisenmenger, K. Lassmann, and S. Dottinger (Springer, Berlin, 1984), P. 368–370.
- Inyushkin A.V., Taldenkov A.N., Ralchenko V.G., Bolshakov A.P., Koliadin A.V., Katrusha A.N. Thermal conductivity of high purity synthetic single crystal diamonds // Phys. Rev. B. 2018. V. 97. № 14. P. 144305: 1–10. https://doi.org/10.1103/PhysRevB.97.144305
- Callaway J. Model for lattice thermal conductivity at low temperatures // Phys. Rev. 1959. V. 113, № 4. P. 1046–1051. https://doi.org/10.1103/PhysRev.113.1046
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