Issues

 / 

1974

 / 

January

  

Reviews of topical problems


Magnetophonon resonance in semiconductors

An account is given of the theory of magnetophonon resonanc--an effect arising from the inelastic character of the scattering of electrons by optical phonons in strong magnetic fields. The electron-phonon collision frequency depends nonmonotonically on the magnetic field: It increases sharply when the optical-phonon energy $\hbar\omega_0$ becomes a multiple of the cyclotron energy $\hbar\Omega$. Therefore, all kinetic coefficients of a dissipative nature should have an oscillatory dependence on the magnetic field. The experimental study of the magnetophonon oscillations makes it possible to determine the cyclotron mass of the electrons, and also its dependence on temperature, pressure, etc. Thanks to development in technique for high magnetic fields, magnetophonon resonance has become both one of the most important methods for determining the band-structure parameters of semiconductors and a means for studying the interaction of electrons with optical phonons.

Fulltext pdf (969 KB)
Fulltext is also available at DOI: 10.1070/PU1974v017n01ABEH004314
PACS: 72.20.My, 63.20.Kr (all)
DOI: 10.1070/PU1974v017n01ABEH004314
URL: https://ufn.ru/en/articles/1974/1/a/
Citation: Parfen’ev R V, Kharus G I, Tsidil’kovskii I M, Shalyt S S "Magnetophonon resonance in semiconductors" Sov. Phys. Usp. 17 1–19 (1974)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Оригинал: Парфеньев Р В, Харус Г И, Цидильковский И М, Шалыт С С «Магнитофононный резонанс в полупроводниках» УФН 112 3–36 (1974); DOI: 10.3367/UFNr.0112.197401a.0003

Cited by (26) ↓ Similar articles (20)

  1. Hamaguchi Ch Basic Semiconductor Physics Graduate Texts In Physics Chapter 7 (2023) p. 375
  2. Poklonski N A, Dzeraviaha A N, Vyrko S A J Appl Spectrosc 87 652 (2020)
  3. Sokolovsky S, Dikarev B, Sokolovsky A 2019 IEEE 39th International Conference on Electronics and Nanotechnology (ELNANO), (2019) p. 317
  4. Bednarek S Journal Of Magnetism And Magnetic Materials 264 251 (2003)
  5. Hamaguchi Ch Basic Semiconductor Physics Chapter 7 (2001) p. 261
  6. Bednarek S Journal Of Magnetism And Magnetic Materials 202 574 (1999)
  7. Hai G -Q, Peeters F M Phys. Rev. B 60 16513 (1999)
  8. Bednarek S Journal Of Magnetism And Magnetic Materials 183 195 (1998)
  9. Bednarek S Materials Science And Engineering: B 54 196 (1998)
  10. Bogod Yu A, Libinson A Solid State Communications 96 609 (1995)
  11. Kodess B N, Rakhmanov S Ya Solid State Communications 87 631 (1993)
  12. Sheregii E M Europhys. Lett. 18 325 (1992)
  13. LEVINSON Y B Modern Problems In Condensed Matter Sciences Vol. Landau Level SpectroscopyPhonon-assisted Cyclotron Resonance27 (1991) p. 79
  14. Ugrin Yu O, Sheregii E M Physica Status Solidi (b) 166 249 (1991)
  15. FIRSOV Yu A, GUREVICH V L et al Modern Problems In Condensed Matter Sciences Vol. Landau Level SpectroscopyMagnetophonon Resonance27 (1991) p. 1181
  16. Hamaguchi C, Mori N Physica B: Condensed Matter 164 85 (1990)
  17. Warmenbol P, Peeters F M, Devreese J T Phys. Rev. B 39 7821 (1989)
  18. Warmenbol P, Peeters F M, Devreese J T Phys. Rev. B 37 4694 (1988)
  19. Mori N, Taniguchi K et al J. Phys. C: Solid State Phys. 21 1791 (1988)
  20. Nowak M Progress In Quantum Electronics 11 205 (1987)
  21. Modern Problems In Condensed Matter Sciences Vol. Carrier Scattering in Metals and SemiconductorsReferences19 (1987) p. 429
  22. Nicholas R J Progress In Quantum Electronics 10 1 (1985)
  23. Band Structure of Semiconductors (1982) p. 375
  24. Bauer G Physics of Nonlinear Transport in Semiconductors Chapter 8 (1980) p. 175
  25. Problems of Linear Electron (Polaron) Transport Theory in Semiconductors (1979) p. 925
  26. Zawadzki W, Bauer G et al Phys. Rev. Lett. 35 1098 (1975)

© 1918–2024 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions