Spin-Phonon Magnetic Resonance of Conduction Electrons in Indium Antimonide Crystals View Full Text


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Article Info

DATE

2020-09-11

AUTHORS

N. A. Poklonski, A. N. Dzeraviaha, S. A. Vyrko

ABSTRACT

Resonance absorption of radio waves (with a frequency of 10 MHz) by c-band electrons in indium antimonide crystals doped with hydrogen-like donors (tellurium atoms) at room temperature in an external magnetic field is theoretically studied. Known experimental data obtained for samples with electron concentrations in the range from 6∙1015 to 5∙1018 cm–3 are analyzed and interpreted. Resonant absorption of radio waves by n-InSb:Te crystals in a magnetic field is calculated to be due to spin-phonon resonance based on the law of conservation of energy and the quasi-wave vector for electrons and optical phonons. The resonance arises as a result of a spin-flip interaction of a c-band electron with an optical phonon, which is assisted by resonant absorption of radio waves in a magnetic field. A physical picture of the phenomenon is given. Analytical relations are presented. Calculations are carried out and are consistent with experimental data that could not previously be interpreted at all. More... »

PAGES

652-661

References to SciGraph publications

  • 2018. Semiconductor Physics in NONE
  • 2013-07-04. Inversion of electron spin resonance signal in coals in JOURNAL OF APPLIED SPECTROSCOPY
  • 2004. Semiconductors: Data Handbook in NONE
  • 2002-05. Electrostatic Model of Edge Luminescence of Heavily Doped Degenerate Semiconductors in JOURNAL OF APPLIED SPECTROSCOPY
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    http://scigraph.springernature.com/pub.10.1007/s10812-020-01050-x

    DOI

    http://dx.doi.org/10.1007/s10812-020-01050-x

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