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An efficient source of frequency anti-correlated entanglement at telecom wavelength

We demonstrate an efficient generation of frequency anti-correlated entangled photon pairs at telecom wavelength. The fundamental laser is a continuous-wave high-power fiber laser at 1560 nm, through an extracavity frequency doubling system, a 780-nm pump with a power as high as 742 mW is realized....

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Published in:	arXiv.org 2016-05
Main Authors:	Hou, Feiyan, Xiao Xiang, Quan, Runai, Wang, Mengmeng, Zhai, Yiwei, Wang, Shaofeng, Liu, Tao, Zhang, Shougang, Dong, Ruifang
Format:	Article
Language:	English
Subjects:	Continuous fibers Continuous radiation Correlation Entanglement Fiber lasers Noise intensity Photons Potassium titanyl orthophosphate Second harmonic generation Spectra Telecommunications
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description	We demonstrate an efficient generation of frequency anti-correlated entangled photon pairs at telecom wavelength. The fundamental laser is a continuous-wave high-power fiber laser at 1560 nm, through an extracavity frequency doubling system, a 780-nm pump with a power as high as 742 mW is realized. After single passing through a periodically poled KTiOPO4 (PPKTP) crystal, degenerate down-converted photon pairs are generated. With an overall detection efficiency of 14.8 %, the count rates of the single photons and coincidence of the photon pairs are measured to be 370 kHz and 22 kHz, respectively. The spectra of the signal and idler photons are centered at 1560.23 and 1560.04 nm, while their 3-dB bandwidths being 3.22 nm both. The joint spectrum of the photon pair is observed to be frequency anti correlated and have a spectral bandwidth of 0.52 nm. According to the ratio of the single photon spectral bandwidth to the joint spectral bandwidth of the photon pairs, the degree of frequency entanglement is quantified to be 6.19. Based on a Hong Ou Mandel interferometric coincidence measurement, a frequency indistinguishability of 95 % is demonstrated. The good agreements with the theoretical estimations show that the inherent extra intensity noise in fiber lasers has little influence on frequency entanglement of the generated photon pairs.
doi_str_mv	10.48550/arxiv.1605.01286
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subjects	Continuous fibers Continuous radiation Correlation Entanglement Fiber lasers Noise intensity Photons Potassium titanyl orthophosphate Second harmonic generation Spectra Telecommunications
title	An efficient source of frequency anti-correlated entanglement at telecom wavelength
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