Overcoming Auger recombination in nanocrystal quantum dot laser using spontaneous emission enhancement
arXiv:1401.3435 · doi:10.1364/OE.22.003013
Abstract
We propose a method to overcome Auger recombination in nanocrystal quantum dot lasers using cavity-enhanced spontaneous emission. We derive a numerical model for a laser composed of nanocrystal quantum dots coupled to optical nanocavities with small mode-volume. Using this model, we demonstrate that spontaneous emission enhancement of the biexciton transition lowers the lasing threshold by reducing the effect of Auger recombination. We analyze a photonic crystal nanobeam cavity laser as a realistic device structure that implements the proposed approach.
18 pages, 6 figures