Acoustic Phonons in Periodical GeSiSn/Si Nanostructures

KV Anikin; VA Timofeev; Dmytro Solonenko; AI Nikoforov; A. Milekhin; Dietrich R. T. Zahn

Acoustic Phonons in Periodical GeSiSn/Si Nanostructures

KV Anikin, VA Timofeev, Dmytro Solonenko, AI Nikoforov, A. Milekhin, Dietrich R. T. Zahn

Publikation: Beitrag in Fachzeitschrift › Konferenzartikel › Begutachtung

Abstract

We apply Raman spectroscopy to study the phonon spectrum in periodical GeSiSn/Si nanostructures with Sn concentration varied from 0 to 20%. In the optical spectral region, an insignificant shift of the phonon mode positions with a variation of the Sn content prevents determination of Sn concentration relying only on the optical phonons behavior. In the acoustic region, we observe the doublets of the folded acoustic phonons, the spectral positions of which undergo the low-frequency shift with increasing the Sn content. The application of the elastic continuum model with the linear approximation of sound velocity via Sn content in GeSiSn layers fails to explain the experimental results. This indicates a nonlinear Sn concentration dependence of sound velocity in GeSiSn layers which describes well the positions of the folded acoustic phonons.

Originalsprache	Englisch
Seiten (von - bis)	012005
Fachzeitschrift	Journal of Physics: Conference Series
Jahrgang	1461
Ausgabenummer	1
Publikationsstatus	Veröffentlicht - 1 März 2020

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title = "Acoustic Phonons in Periodical GeSiSn/Si Nanostructures",

abstract = "We apply Raman spectroscopy to study the phonon spectrum in periodical GeSiSn/Si nanostructures with Sn concentration varied from 0 to 20%. In the optical spectral region, an insignificant shift of the phonon mode positions with a variation of the Sn content prevents determination of Sn concentration relying only on the optical phonons behavior. In the acoustic region, we observe the doublets of the folded acoustic phonons, the spectral positions of which undergo the low-frequency shift with increasing the Sn content. The application of the elastic continuum model with the linear approximation of sound velocity via Sn content in GeSiSn layers fails to explain the experimental results. This indicates a nonlinear Sn concentration dependence of sound velocity in GeSiSn layers which describes well the positions of the folded acoustic phonons.",

author = "KV Anikin and VA Timofeev and Dmytro Solonenko and AI Nikoforov and A. Milekhin and Zahn, {Dietrich R. T.}",

year = "2020",

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language = "English",

volume = "1461",

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TY - JOUR

T1 - Acoustic Phonons in Periodical GeSiSn/Si Nanostructures

AU - Anikin, KV

AU - Timofeev, VA

AU - Solonenko, Dmytro

AU - Nikoforov, AI

AU - Milekhin, A.

AU - Zahn, Dietrich R. T.

PY - 2020/3/1

Y1 - 2020/3/1

N2 - We apply Raman spectroscopy to study the phonon spectrum in periodical GeSiSn/Si nanostructures with Sn concentration varied from 0 to 20%. In the optical spectral region, an insignificant shift of the phonon mode positions with a variation of the Sn content prevents determination of Sn concentration relying only on the optical phonons behavior. In the acoustic region, we observe the doublets of the folded acoustic phonons, the spectral positions of which undergo the low-frequency shift with increasing the Sn content. The application of the elastic continuum model with the linear approximation of sound velocity via Sn content in GeSiSn layers fails to explain the experimental results. This indicates a nonlinear Sn concentration dependence of sound velocity in GeSiSn layers which describes well the positions of the folded acoustic phonons.

AB - We apply Raman spectroscopy to study the phonon spectrum in periodical GeSiSn/Si nanostructures with Sn concentration varied from 0 to 20%. In the optical spectral region, an insignificant shift of the phonon mode positions with a variation of the Sn content prevents determination of Sn concentration relying only on the optical phonons behavior. In the acoustic region, we observe the doublets of the folded acoustic phonons, the spectral positions of which undergo the low-frequency shift with increasing the Sn content. The application of the elastic continuum model with the linear approximation of sound velocity via Sn content in GeSiSn layers fails to explain the experimental results. This indicates a nonlinear Sn concentration dependence of sound velocity in GeSiSn layers which describes well the positions of the folded acoustic phonons.

M3 - Conference article

SN - 1742-6588

VL - 1461

SP - 012005

JO - Journal of Physics: Conference Series

JF - Journal of Physics: Conference Series

IS - 1

ER -

Acoustic Phonons in Periodical GeSiSn/Si Nanostructures

Abstract

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