Evolution of optical phonons in epitaxial Ge1−ySny structures

Young Chan Kim; Taegeon Lee; Mee Yi Ryu; John Kouvetakis; Heesuk Rho

doi:10.1002/jrs.5986

Evolution of optical phonons in epitaxial Ge_1−ySn_y structures

Young Chan Kim, Taegeon Lee, Mee Yi Ryu, John Kouvetakis, Heesuk Rho

CLAS-NS: Molecular Sciences, School of (SMS)

Research output: Contribution to journal › Article › peer-review

Abstract

We report polarized Raman scattering results of Ge_1−ySn_y (0 ≤ y ≤ 0.09) epitaxial layers grown on Ge-buffered Si substrates. Polarized Raman spectra from the sample surfaces revealed strong Ge–Ge longitudinal optical (LO) phonon responses. The Ge–Ge LO(z) phonon wavenumber decreased systematically as the Sn content increased. Linear fitting results of the Ge–Ge LO(z) phonon wavenumber shifts as a function of Sn content suggested that a partial strain relaxation occurred in the Ge_1−ySn_y layers. Spatially resolved Raman mapping measurements from the cross section of a Ge_0.938Sn_0.062 samplev showed that the peak wavenumber of the Ge–Ge transverse optical phonon decreased gradually toward the top surface, providing direct evidence that the residual built-in strain initially formed at the Ge_0.938Sn_0.062/Ge interface tended to relax gradually along the growth direction. Further, a hydrogen inductively coupled plasma treatment induced a greater homogeneous strain profile in the Ge_0.938Sn_0.062 layer.

Original language	English (US)
Pages (from-to)	2305-2310
Number of pages	6
Journal	Journal of Raman Spectroscopy
Volume	51
Issue number	11
DOIs	https://doi.org/10.1002/jrs.5986
State	Published - Nov 2020

Keywords

germanium tin
optical phonon
polarized Raman spectroscopy
strain
stress

ASJC Scopus subject areas

Materials Science(all)
Spectroscopy

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@article{0d01084962b340859f5230a0fb165830,

title = "Evolution of optical phonons in epitaxial Ge1−ySny structures",

abstract = "We report polarized Raman scattering results of Ge1−ySny (0 ≤ y ≤ 0.09) epitaxial layers grown on Ge-buffered Si substrates. Polarized Raman spectra from the sample surfaces revealed strong Ge–Ge longitudinal optical (LO) phonon responses. The Ge–Ge LO(z) phonon wavenumber decreased systematically as the Sn content increased. Linear fitting results of the Ge–Ge LO(z) phonon wavenumber shifts as a function of Sn content suggested that a partial strain relaxation occurred in the Ge1−ySny layers. Spatially resolved Raman mapping measurements from the cross section of a Ge0.938Sn0.062 samplev showed that the peak wavenumber of the Ge–Ge transverse optical phonon decreased gradually toward the top surface, providing direct evidence that the residual built-in strain initially formed at the Ge0.938Sn0.062/Ge interface tended to relax gradually along the growth direction. Further, a hydrogen inductively coupled plasma treatment induced a greater homogeneous strain profile in the Ge0.938Sn0.062 layer.",

keywords = "germanium tin, optical phonon, polarized Raman spectroscopy, strain, stress",

author = "Kim, {Young Chan} and Taegeon Lee and Ryu, {Mee Yi} and John Kouvetakis and Heesuk Rho",

note = "Funding Information: This work was supported by the National Research Foundation of Korea (NRF) grant funded by the Korea government (MSIT) (Grant Nos. 2019R1A2C1003366 and 2017R1A2B4003744) and the Research Base Construction Fund Support Program funded by Jeonbuk National University in 2020.",

year = "2020",

month = nov,

doi = "10.1002/jrs.5986",

language = "English (US)",

volume = "51",

pages = "2305--2310",

journal = "Journal of Raman Spectroscopy",

issn = "0377-0486",

publisher = "John Wiley and Sons Ltd",

number = "11",

}

TY - JOUR

T1 - Evolution of optical phonons in epitaxial Ge1−ySny structures

AU - Kim, Young Chan

AU - Lee, Taegeon

AU - Ryu, Mee Yi

AU - Kouvetakis, John

AU - Rho, Heesuk

N1 - Funding Information: This work was supported by the National Research Foundation of Korea (NRF) grant funded by the Korea government (MSIT) (Grant Nos. 2019R1A2C1003366 and 2017R1A2B4003744) and the Research Base Construction Fund Support Program funded by Jeonbuk National University in 2020.

PY - 2020/11

Y1 - 2020/11

N2 - We report polarized Raman scattering results of Ge1−ySny (0 ≤ y ≤ 0.09) epitaxial layers grown on Ge-buffered Si substrates. Polarized Raman spectra from the sample surfaces revealed strong Ge–Ge longitudinal optical (LO) phonon responses. The Ge–Ge LO(z) phonon wavenumber decreased systematically as the Sn content increased. Linear fitting results of the Ge–Ge LO(z) phonon wavenumber shifts as a function of Sn content suggested that a partial strain relaxation occurred in the Ge1−ySny layers. Spatially resolved Raman mapping measurements from the cross section of a Ge0.938Sn0.062 samplev showed that the peak wavenumber of the Ge–Ge transverse optical phonon decreased gradually toward the top surface, providing direct evidence that the residual built-in strain initially formed at the Ge0.938Sn0.062/Ge interface tended to relax gradually along the growth direction. Further, a hydrogen inductively coupled plasma treatment induced a greater homogeneous strain profile in the Ge0.938Sn0.062 layer.

AB - We report polarized Raman scattering results of Ge1−ySny (0 ≤ y ≤ 0.09) epitaxial layers grown on Ge-buffered Si substrates. Polarized Raman spectra from the sample surfaces revealed strong Ge–Ge longitudinal optical (LO) phonon responses. The Ge–Ge LO(z) phonon wavenumber decreased systematically as the Sn content increased. Linear fitting results of the Ge–Ge LO(z) phonon wavenumber shifts as a function of Sn content suggested that a partial strain relaxation occurred in the Ge1−ySny layers. Spatially resolved Raman mapping measurements from the cross section of a Ge0.938Sn0.062 samplev showed that the peak wavenumber of the Ge–Ge transverse optical phonon decreased gradually toward the top surface, providing direct evidence that the residual built-in strain initially formed at the Ge0.938Sn0.062/Ge interface tended to relax gradually along the growth direction. Further, a hydrogen inductively coupled plasma treatment induced a greater homogeneous strain profile in the Ge0.938Sn0.062 layer.

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KW - optical phonon

KW - polarized Raman spectroscopy

KW - strain

KW - stress

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