Low Raman-noise correlated photon-pair generation in a dispersion-engineered chalcogenide As<sub>2</sub>S<sub>3</sub> planar waveguide

Matthew J. Collins; Alex S. Clark; Jiakun He; Duk-Yong Choi; Robert J. Williams; Alexander C. Judge; Steve J. Madden; Michael J. Withford; M. J. Steel; Barry Luther-Davies; Chunle Xiong; Benjamin J. Eggleton

doi:10.1364/OL.37.003393

Optics Letters
Vol. 37,
Issue 16,
pp. 3393-3395
(2012)
•https://doi.org/10.1364/OL.37.003393

Low Raman-noise correlated photon-pair generation in a dispersion-engineered chalcogenide ${As}_{2} S_{3}$ planar waveguide

Matthew J. Collins, Alex S. Clark, Jiakun He, Duk-Yong Choi, Robert J. Williams, Alexander C. Judge, Steve J. Madden, Michael J. Withford, M. J. Steel, Barry Luther-Davies, Chunle Xiong, and Benjamin J. Eggleton

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Matthew J. Collins, Alex S. Clark, Jiakun He, Duk-Yong Choi, Robert J. Williams, Alexander C. Judge, Steve J. Madden, Michael J. Withford, M. J. Steel, Barry Luther-Davies, Chunle Xiong, and Benjamin J. Eggleton, "Low Raman-noise correlated photon-pair generation in a dispersion-engineered chalcogenide As₂S₃ planar waveguide," Opt. Lett. 37, 3393-3395 (2012)

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Abstract

We demonstrate low Raman-noise correlated photon-pair generation in a dispersion-engineered 10 mm ${As}_{2} S_{3}$ chalcogenide waveguide at room temperature. We show a coincidence-to-accidental ratio (CAR) of 16.8, a 250 times increase compared with previously published results in a chalcogenide waveguide, with a corresponding brightness of $3 \times 10^{5} pairs \cdot s^{- 1} \cdot {nm}^{- 1}$ generated at the chip. Dispersion engineering of our waveguide enables photon passbands to be placed in the low spontaneous Raman scattering (SpRS) window at 7.4 THz detuning from the pump. This Letter shows the potential for ${As}_{2} S_{3}$ chalcogenide to be used for nonlinear quantum photonic devices.

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