In-plane Raman scattering of (001)-Si/Ge superlattices: Theory and experiment

R. Schorer; G. Abstreiter; S. De Gironcoli; E. Molinari; H. Kibbel; H. Presting

doi:10.1103/PhysRevB.49.5406

In-plane Raman scattering of (001)-Si/Ge superlattices: Theory and experiment

R. Schorer
, G. Abstreiter
, S. De Gironcoli
, E. Molinari
, H. Kibbel
, H. Presting

TUM Emeriti of Excellence

Walter Schottky Institut
Scuola Normale Superiore di Pisa
University of Modena and Reggio Emilia
Daimler-Benz AG

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

69 Scopus citations

Abstract

Using a micro-Raman setup, in-plane Raman scattering was performed on short-period (001)-Si/Ge superlattices, and the complete phonon spectrum (longitudinal and transverse, optical and acoustic modes) could be studied. In the relevant wave-vector range, the in-plane dispersion was found to affect the frequencies of folded-acoustic modes, while being negligible for confined optical modes. The comparison with theoretical spectra, calculated by means of first-principles interatomic force constants, shows that the observed deviations of unfolded confined optical modes from the bulk dispersions can be attributed to interface roughness and is well described by a simple alloy layer model (23 intermixed SiGe atomic layers at interfaces).

Original language	English
Pages (from-to)	5406-5414
Number of pages	9
Journal	Physical Review B
Volume	49
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevB.49.5406
State	Published - 1994

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abstract = "Using a micro-Raman setup, in-plane Raman scattering was performed on short-period (001)-Si/Ge superlattices, and the complete phonon spectrum (longitudinal and transverse, optical and acoustic modes) could be studied. In the relevant wave-vector range, the in-plane dispersion was found to affect the frequencies of folded-acoustic modes, while being negligible for confined optical modes. The comparison with theoretical spectra, calculated by means of first-principles interatomic force constants, shows that the observed deviations of unfolded confined optical modes from the bulk dispersions can be attributed to interface roughness and is well described by a simple alloy layer model (23 intermixed SiGe atomic layers at interfaces).",

author = "R. Schorer and G. Abstreiter and \{De Gironcoli\}, S. and E. Molinari and H. Kibbel and H. Presting",

year = "1994",

doi = "10.1103/PhysRevB.49.5406",

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T2 - Theory and experiment

AU - Schorer, R.

AU - Abstreiter, G.

AU - De Gironcoli, S.

AU - Molinari, E.

AU - Kibbel, H.

AU - Presting, H.

PY - 1994

Y1 - 1994

N2 - Using a micro-Raman setup, in-plane Raman scattering was performed on short-period (001)-Si/Ge superlattices, and the complete phonon spectrum (longitudinal and transverse, optical and acoustic modes) could be studied. In the relevant wave-vector range, the in-plane dispersion was found to affect the frequencies of folded-acoustic modes, while being negligible for confined optical modes. The comparison with theoretical spectra, calculated by means of first-principles interatomic force constants, shows that the observed deviations of unfolded confined optical modes from the bulk dispersions can be attributed to interface roughness and is well described by a simple alloy layer model (23 intermixed SiGe atomic layers at interfaces).

AB - Using a micro-Raman setup, in-plane Raman scattering was performed on short-period (001)-Si/Ge superlattices, and the complete phonon spectrum (longitudinal and transverse, optical and acoustic modes) could be studied. In the relevant wave-vector range, the in-plane dispersion was found to affect the frequencies of folded-acoustic modes, while being negligible for confined optical modes. The comparison with theoretical spectra, calculated by means of first-principles interatomic force constants, shows that the observed deviations of unfolded confined optical modes from the bulk dispersions can be attributed to interface roughness and is well described by a simple alloy layer model (23 intermixed SiGe atomic layers at interfaces).

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SP - 5406

EP - 5414

JO - Physical Review B

JF - Physical Review B

IS - 8

ER -

In-plane Raman scattering of (001)-Si/Ge superlattices: Theory and experiment

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