Entangled light from driven dissipative microcavities
Abstract
We study the generation of entangled light in planar semiconductor microcavities. The focus is on a particular pump configuration where the dissipative internal polariton dynamics leads to the emission of entangled light in a W-state. Our study is based on the nonlinear equations of motion for the polariton operators derived within the dynamics-controlled truncation formalism. They include the losses through the cavity mirrors, the interaction with lattice vibrations, and the external laser driving in a Langevin approach. We find that the generated entanglement is robust against decoherence under realistic experimental conditions. The results show that pair correlations in solid-state devices can be used to stabilize the nonlocal properties of the emitted radiation.
Cite
@article{arxiv.1506.03666,
title = {Entangled light from driven dissipative microcavities},
author = {Daniel Pagel and Holger Fehske},
journal= {arXiv preprint arXiv:1506.03666},
year = {2015}
}
Comments
7 pages, 3 figures