Standing Optical Phonons in Finite Semiconductor Superlattices Studied by Resonant Raman Scattering in a Double Microcavity

9 April 2001

journal article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 86 (15) , 3411-3414
https://doi.org/10.1103/physrevlett.86.3411

Abstract

We report optical double resonant enhancement of Raman scattering in a new double microcavity geometry. The design allows almost backscattering geometries, providing easy access to the excitations' in-plane dispersion. The cavity is used to study the phonon spectra of a finite GaAs/AlAs superlattice. A new type of "standing optical vibration" is demonstrated involving the GaAs confined phonons with a standing wave envelope determined by the superlattice thickness. A strong dispersion of the first order standing wave mode is observed, as well as its anticrossing with higher order confined modes of the same symmetry.

Keywords

This publication has 8 references indexed in Scilit:

Dual-wavelength laser emission from a coupled semiconductor microcavity
Applied Physics Letters, 1997
Raman Scattering Enhancement by Optical Confinement in a Semiconductor Planar Microcavity
Physical Review Letters, 1995
Angular dispersion of confined optical phonons in GaAsAlAs superlattices studied by micro-Raman spectroscopy
Solid State Communications, 1995
Near-field imaging of atom diffraction gratings: The atomic Talbot effect
Physical Review A, 1995
Resonant Raman line shape of optic phonons in GaAs/AlAs multiple quantum wells
Physical Review Letters, 1994
Ball-milling-induced amorphization in ${Ni}_{x}$ ${Zr}_{y}$ compounds: A parametric study
Physical Review B, 1993
Forward scattering on short period GaAs/AlAs superlattices
Surface Science, 1990
Light Scattering in Solids II
Published by Springer Nature ,1982