SPECTRAL DEPENDENCE OF THE PHOTOCONDUCTIVITY OF Gе.sub.xSi.sub.1 - x TYPE GRADED-GAP STRUCTURES OBTAINED BY DIFFUSION TECHNOLOGY

SPECTRAL DEPENDENCE OF THE PHOTOCONDUCTIVITY OF Gе.sub.xSi.sub.1 - x TYPE GRADED-GAP STRUCTURES OBTAINED BY DIFFUSION TECHNOLOGY

A graded-gap structure of the Ge.sub.xSi.sub.1 - x type is obtained by diffusion doping silicon with germanium. Elemental analysis of the surface of the samples showed that the concentration of silicon (in atomic percent) was 64.5%, germanium 26.9%, oxygen 5.9%, and other elements 2.7%. On the spect...

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Veröffentlicht in:Semiconductors (Woodbury, N.Y.) N.Y.), 2022-01, Vol.56 (1), p.29
Hauptverfasser: Zikrillaev, N. F, Koveshnikov, S. V, Isamov, S. B, Abdurahmonov, B. A, Kushiev, G. A
Format: Artikel
Sprache:eng
Schlagworte:
Semiconductors
Technology application
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Zusammenfassung:A graded-gap structure of the Ge.sub.xSi.sub.1 - x type is obtained by diffusion doping silicon with germanium. Elemental analysis of the surface of the samples showed that the concentration of silicon (in atomic percent) was 64.5%, germanium 26.9%, oxygen 5.9%, and other elements 2.7%. On the spectral dependence of the photoconductivity, a noticeable increase in the photocurrent begins at h[nu] = 0.75-0.8 eV, which approximately corresponds to the band gap of the Ge.sub.0.27Si.sub.0.73 material. The development of diffusion technology for obtaining graded-gap Ge.sub.xSi.sub.1 - x structures will allow the development of photodetectors with an extended region of spectral sensitivity.
ISSN:1063-7826
DOI:10.1134/S1063782622020191