Title :
Multiple scattering of quantum optical states
Author :
Ott, J.R. ; Mortensen, N.A. ; Lodahl, P.
Author_Institution :
Dept. of Photonics Eng., Tech. Univ. of Denmark, Lyngby, Denmark
Abstract :
Here we report on the predicted effects of quantum interference induced by combining an arbitrary number of quantum optical states in a random multiple scattering medium. We identify the role of quantum interference on the degree of photon correlations between two transmission paths through the medium and the degree of continuous variable entanglement. The investigation is performed using a scattering matrix formalism and based on random matrix theory. In this way the ensemble averaged 2-channel photon correlations Cοψ and the degree of entanglement εοψ between output modes a and β are related to the classical shortand long-range correlation functions, Cι and C2, and the average conductance g. The expressions are non-perturbative and valid in the entire mesoscopic regime.
Keywords :
light scattering; light transmission; optical correlation; quantum entanglement; 2 channel photon correlations; continuous variable entanglement; degree of photon correlations; multiple scattering; quantum interference; quantum optical states; random matrix theory; scattering matrix formalism; transmission paths; Correlation; Interference; Media; Optical scattering; Photonics; Quantum entanglement;
Conference_Titel :
Lasers and Electro-Optics Europe (CLEO EUROPE/EQEC), 2011 Conference on and 12th European Quantum Electronics Conference
Conference_Location :
Munich
Print_ISBN :
978-1-4577-0533-5
Electronic_ISBN :
Pending
DOI :
10.1109/CLEOE.2011.5943366
