Continuous-wave spatial quantum correlations of light induced by multiple scattering
Abstract
We present theoretical and experimental results on spatial quantum correlations induced by multiple scattering of nonclassical light. A continuous mode quantum theory is derived that enables determining the spatial quantum correlation function from the fluctuations of the total transmittance and reflectance. Utilizing frequency-resolved quantum noise measurements, we observe that the strength of the spatial quantum correlation function can be controlled by changing the quantum state of an incident bright squeezed-light source. Our results are found to be in excellent agreement with the developed theory and form a basis for future research on, e.g., quantum interference of multiple quantum states in a multiple scattering medium.
Cite
@article{arxiv.1103.0968,
title = {Continuous-wave spatial quantum correlations of light induced by multiple scattering},
author = {Stephan Smolka and Johan R. Ott and Alexander Huck and Ulrik L. Andersen and Peter Lodahl},
journal= {arXiv preprint arXiv:1103.0968},
year = {2015}
}
Comments
8 pages, 6 figures