Optical Lattices Achieved by Excitons in Periodic Quantum Well Structures
- 4 October 1999
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 83 (14) , 2841-2844
- https://doi.org/10.1103/physrevlett.83.2841
Abstract
Photoluminescence and linear optical response from large-number multiple quantum well structures, with a period in the vicinity of half the exciton resonance wavelength, are dominated by the normal modes of the coupled wells. These show up in multiple linesplitting and a photonic band gap at Bragg resonance. The photonic gap is identified by an enhanced Bragg reflection and a corresponding weak absorption of the optical lattice. The strongly modified light-matter interaction for photons in the photonic gap is also manifest in the poor emission from the so-called super-radiant mode after excitation in the free carrier continuum.This publication has 17 references indexed in Scilit:
- Strong Interactions of Single Atoms and Photons in Cavity QEDPhysica Scripta, 1998
- High-pressure Raman scattering of the stretching mode in nitrogen along the 300-K isothermPhysical Review B, 1996
- Coherent dynamics of radiatively coupled quantum-well excitonsPhysical Review B, 1996
- Bragg Scattering from Atoms in Optical LatticesPhysical Review Letters, 1995
- Photonic band gaps in optical latticesPhysical Review A, 1995
- Polaritons in multiple quantum wellsPhysica Status Solidi (b), 1995
- Exciton radiative decay and polaritons in multiquantum wells: quantum-well-to-superlattice crossoverSolid State Communications, 1994
- Observation of the coupled exciton-photon mode splitting in a semiconductor quantum microcavityPhysical Review Letters, 1992
- Observation of Self-Induced Rabi Oscillations in Two-Level Atoms Excited Inside a Resonant Cavity: The Ringing Regime of SuperradiancePhysical Review Letters, 1983
- Resonance Absorption by Nuclear Magnetic Moments in a SolidPhysical Review B, 1946