S. Olivier, C. Sciancalepore, H. E. Dirani, Q. Wilmart, Raouia Rhazi, E. Monroy, J. Gerard, D. Bacco, F. Sabattoli, M. Galli, D. Bajoni, J. Rothman
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Building an integrated quantum photonics platform on silicon for ultra-secure communications
Silicon photonics based on CMOS technology is a very attractive platform to build compact, low-cost and scalable quantum photonics integrated circuits addressing the requirements of quantum key distribution protocols. We show record low propagation losses below 0.5 dB/cm and below 0.05 dB/cm for silicon and silicon nitride waveguides respectively. We will present our results on integrated components such as hybrid III-V on silicon lasers for weak coherent pulse generation, high-quality microresonators for entangled photon pair generation and we will show our recent developments on high crystalline quality NbN thin films with improved critical temperature for waveguide-integrated superconducting single photon detectors.
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