Polariton laser using single micropillar GaAs-GaAlAs semiconductor cavities
arXiv:0710.2060 · doi:10.1103/PhysRevLett.100.047401
Abstract
Polariton lasing is demonstrated on the zero dimensional states of single GaAs/GaAlAs micropillar cavities. Under non resonant excitation, the measured polariton ground state occupancy is found to be as large as $10^{4}$. Changing the spatial excitation conditions, competition between several polariton lasing modes is observed, ruling out Bose-Einstein condensation. When the polariton state occupancy increases, the emission blueshift is the signature of self-interaction within the half-light half-matter polariton lasing mode.
5 pages, 4 figures, accepted for publication in Physical Review Letters