A bright triggered twin-photon source in the solid state
Abstract
A non-classical light source emitting pairs of identical photons represents a versatile resource of interdisciplinary importance with applications in quantum optics and quantum biology. Emerging research fields, which benefit from such type of quantum light source, include quantum-optical spectroscopy or experiments on photoreceptor cells sensitive to photon statistics. To date, photon twins have mostly been generated using parametric downconversion sources, relying on Poissonian number distributions, or atoms, exhibiting low emission rates. Here, we propose and experimentally demonstrate the efficient, triggered generation of photon twins using the energy-degenerate biexciton-exciton radiative cascade of a single semiconductor quantum dot. Deterministically integrated within a microlens, this nanostructure emits highly-correlated photon pairs, degenerate in energy and polarization, at a rate of up to (234 4) kHz. Furthermore, we verify a significant degree of photon-indistinguishability and directly observe twin-photon emission by employing photon-number-resolving detectors, which enables the reconstruction of the emitted photon number distribution.
Cite
@article{arxiv.1608.02768,
title = {A bright triggered twin-photon source in the solid state},
author = {Tobias Heindel and Alexander Thoma and Martin von Helversen and Marco Schmidt and Alexander Schlehahn and Manuel Gschrey and Peter Schnauber and Jan-Hindrik Schulze and André Strittmatter and Jörn Beyer and Sven Rodt and Alexander Carmele and Andreas Knorr and Stephan Reitzenstein},
journal= {arXiv preprint arXiv:1608.02768},
year = {2017}
}
Comments
15 pages, 5 figures, including Supplementary Information