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High brightness single mode source of correlated photon pairs using a photonic crystal fiber

Optics Express, 13(19): 7572-7582, 2005.
Authors: J. Fulconis and O. Alibart and W.J. Wadsworth and P.S. Russell and J.G. Rarity
URL: http://www.opticsexpress.org/abstract.cfm?id=85490
Description: High brightness single mode source of correlated photon pairs using a photonic crystal fiber
Tags: Nonlinear_optics div3 fibers quantum_optics
Abstract: We demonstrate a picosecond source of correlated photon pairs using a micro-structured fibre with zero dispersion around 715 nm wavelength. The fibre is pumped in the normal dispersion regime at ~708 nm and phase matching is satisfied for widely spaced parametric wavelengths. Here we generate up to 10^7 photon pairs per second in the fibre at wavelengths of 587 nm and 897 nm, while on collecting this light in single-mode-fibre-coupled Silicon avalanche diode photon counting detectors, we detect ~3.2x10^5 coincidences per second at pump power 0.5 mW.
| URL | BibTeX  
@article{fulconis,
title = {High brightness single mode source of correlated photon pairs using a photonic crystal fiber},
author = {J. Fulconis and O. Alibart and W.J. Wadsworth and P.S. Russell and J.G. Rarity},
crossref = {http://dx.doi.org/10.1364/OPEX.13.007572},
day = {19},
journal = {Optics Express},
month = {09},
number = {19},
pages = {7572-7582},
url = {http://www.opticsexpress.org/abstract.cfm?id=85490},
volume = {13},
year = {2005},
description = {High brightness single mode source of correlated photon pairs using a photonic crystal fiber},
abstract = {We demonstrate a picosecond source of correlated photon pairs using a micro-structured fibre with zero dispersion around 715 nm wavelength. The fibre is pumped in the normal dispersion regime at ~708 nm and phase matching is satisfied for widely spaced parametric wavelengths. Here we generate up to 10^7 photon pairs per second in the fibre at wavelengths of 587 nm and 897 nm, while on collecting this light in single-mode-fibre-coupled Silicon avalanche diode photon counting detectors, we detect ~3.2x10^5 coincidences per second at pump power 0.5 mW.},
keywords = {Nonlinear_optics div3 fibers quantum_optics }
}