Single-photon induced correlation with integrated quantum frequency combs

Yanbing Zhang; Michael Kues; Michael Kues; Piotr Roztocki; Christian Reimer; Christian Reimer; Bennet Fischer; Benjamin MacLellan; Lucia Caspani; Brent E. Little; Sai T. Chu; David J. Moss; Roberto Morandotti; Roberto Morandotti; Roberto Morandotti

2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference
OSA Technical Digest (Optica Publishing Group, 2019),
paper ea_7_4

Single-photon induced correlation with integrated quantum frequency combs

Yanbing Zhang, Michael Kues, Piotr Roztocki, Christian Reimer, Bennet Fischer, Benjamin MacLellan, Lucia Caspani, Brent E. Little, Sai T. Chu, David J. Moss, and Roberto Morandotti

European Quantum Electronics Conference 2019

Munich Germany
23–27 June 2019
ISBN: 978-1-7281-0469-0

From the session
Nanoclassical light (ea_7)

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Y. Zhang, M. Kues, P. Roztocki, C. Reimer, B. Fischer, B. MacLellan, L. Caspani, B. E. Little, S. T. Chu, D. J. Moss, and R. Morandotti, "Single-photon induced correlation with integrated quantum frequency combs," in 2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference, OSA Technical Digest (Optica Publishing Group, 2019), paper ea_7_4.

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Abstract

Quantum correlations, where two or more parties exhibit strong correlations in a particular degree of freedom are important resources for fundamental science [1], such as the exploration of non-locality and entanglement, as well as non-classical technologies including quantum computation, quantum key distribution and quantum metrology. One typical way to generate correlated photon pairs is to use the spontaneous four-wave mixing process, with demonstrations on various platforms [2]. So far, single-photon stimulated four-wave mixing (FWM) has been demonstrated in optical fibers [3]. Here we show induced correlation by single photon seeded FWM through exploiting the orthogonal polarization modes in an integrated ring resonator [4]. We allow two different four-wave mixing processes to occur simultaneously with the same signal frequency mode but different idler frequency modes (see Fig.1(a)). The single-photon induced FWM process, named here seeded FWM, was created through the link of type-0 SFWM and type-2 SFWM. In the type-0 process, two excitation photons from the same field are converted into two new photons, signal and idler, with the same polarization as the pump field. While in the type-2 FWM, two annihilated photons, each one from a different polarized pump field, namely TE and TM, generate an orthogonal-polarized photon pair.

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