A pump enhanced source of telecom-band correlated photon pairs

Correlated photon pairs generated through spontaneous parametric downconversion have become a key resource for research into enhanced optical measurement and quantum optical information processing. A pump-enhanced χ (2) source of correlated photons in the telecom band is presented. An investigation...

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Published in:	Journal of modern optics Vol. 58; no. 8; pp. 631 - 639
Main Authors:	Thomas, P.J., Dunn, M.H., Stothard, D.J.M., Walsh, D.A., Chunnilall, C.J.
Format:	Journal Article
Language:	English
Published:	Abingdon Taylor & Francis Group 10-05-2011 Taylor & Francis Ltd
Subjects:	Atoms & subatomic particles correlated photons Correlation Crystals Fiber optic measurement Fiber optics Holes Hong-Ou-Mandel Information processing Optical data processing Optical fibers parametric downconversion Photons pump enhanced Pumps Quantum theory telecom Telecommunications
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Abstract	Correlated photon pairs generated through spontaneous parametric downconversion have become a key resource for research into enhanced optical measurement and quantum optical information processing. A pump-enhanced χ (2) source of correlated photons in the telecom band is presented. An investigation of the pair photon coincidence detection rate measured from the source, together with the evaluation of system losses, indicated a single spatial fibre-optic mode pair production rate of 6.12 × 10 4 s −1 mW −1 pump power, an order of magnitude greater than was measured without enhancement. A Hong-Ou-Mandel interference experiment confirmed that the enhancement did not have any adverse effect on the spatial and frequency indistinguishability of the emitted pairs. The source comprises a symmetric and linear enhancement cavity for the pump, making it particularly suitable for generating polarisation entangled photon pairs without the need for compensating crystals 1 .
AbstractList	Correlated photon pairs generated through spontaneous parametric downconversion have become a key resource for research into enhanced optical measurement and quantum optical information processing. A pump-enhanced χ^(2) source of correlated photons in the telecom band is presented. An investigation of the pair photon coincidence detection rate measured from the source, together with the evaluation of system losses, indicated a single spatial fibre-optic mode pair production rate of 6.12 x 104 s^-1 mW^-1 pump power, an order of magnitude greater than was measured without enhancement. A Hong-Ou-Mandel interference experiment confirmed that the enhancement did not have any adverse effect on the spatial and frequency indistinguishability of the emitted pairs. The source comprises a symmetric and linear enhancement cavity for the pump, making it particularly suitable for generating polarisation entangled photon pairs without the need for compensating crystals 1. [PUBLICATION ABSTRACT] Correlated photon pairs generated through spontaneous parametric downconversion have become a key resource for research into enhanced optical measurement and quantum optical information processing. A pump-enhanced χ (2) source of correlated photons in the telecom band is presented. An investigation of the pair photon coincidence detection rate measured from the source, together with the evaluation of system losses, indicated a single spatial fibre-optic mode pair production rate of 6.12 × 10 4 s −1 mW −1 pump power, an order of magnitude greater than was measured without enhancement. A Hong-Ou-Mandel interference experiment confirmed that the enhancement did not have any adverse effect on the spatial and frequency indistinguishability of the emitted pairs. The source comprises a symmetric and linear enhancement cavity for the pump, making it particularly suitable for generating polarisation entangled photon pairs without the need for compensating crystals 1 . Correlated photon pairs generated through spontaneous parametric downconversion have become a key resource for research into enhanced optical measurement and quantum optical information processing. A pump-enhanced Delta *y(2) source of correlated photons in the telecom band is presented. An investigation of the pair photon coincidence detection rate measured from the source, together with the evaluation of system losses, indicated a single spatial fibre-optic mode pair production rate of 6.12 t 104 s-1 mW-1 pump power, an order of magnitude greater than was measured without enhancement. A Hong-Ou-Mandel interference experiment confirmed that the enhancement did not have any adverse effect on the spatial and frequency indistinguishability of the emitted pairs. The source comprises a symmetric and linear enhancement cavity for the pump, making it particularly suitable for generating polarisation entangled photon pairs without the need for compensating crystals 1. Correlated photon pairs generated through spontaneous parametric downconversion have become a key resource for research into enhanced optical measurement and quantum optical information processing. A pump-enhanced chi (2) source of correlated photons in the telecom band is presented. An investigation of the pair photon coincidence detection rate measured from the source, together with the evaluation of system losses, indicated a single spatial fibre-optic mode pair production rate of 6.12 104 s-1 mW-1 pump power, an order of magnitude greater than was measured without enhancement. A Hong-Ou-Mandel interference experiment confirmed that the enhancement did not have any adverse effect on the spatial and frequency indistinguishability of the emitted pairs. The source comprises a symmetric and linear enhancement cavity for the pump, making it particularly suitable for generating polarisation entangled photon pairs without the need for compensating crystals 1.
Author	Thomas, P.J. Walsh, D.A. Chunnilall, C.J. Stothard, D.J.M. Dunn, M.H.
Author_xml	– sequence: 1 givenname: P.J. surname: Thomas fullname: Thomas, P.J. email: peterjaythomas@gmail.com organization: School of Physics & Astronomy, University of St Andrews – sequence: 2 givenname: M.H. surname: Dunn fullname: Dunn, M.H. organization: School of Physics & Astronomy, University of St Andrews – sequence: 3 givenname: D.J.M. surname: Stothard fullname: Stothard, D.J.M. organization: School of Physics & Astronomy, University of St Andrews – sequence: 4 givenname: D.A. surname: Walsh fullname: Walsh, D.A. organization: School of Physics & Astronomy, University of St Andrews – sequence: 5 givenname: C.J. surname: Chunnilall fullname: Chunnilall, C.J. organization: National Physical Laboratory, Hampton Road
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SubjectTerms	Atoms & subatomic particles correlated photons Correlation Crystals Fiber optic measurement Fiber optics Holes Hong-Ou-Mandel Information processing Optical data processing Optical fibers parametric downconversion Photons pump enhanced Pumps Quantum theory telecom Telecommunications
Title	A pump enhanced source of telecom-band correlated photon pairs
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