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Two-photon quantum interference and entanglement at 2.1 μm

Shashi Prabhakar, Taylor Shields, Adetunmise C. Dada, Mehdi Ebrahim, Gregor G. Taylor, D. Morozov, Kleanthis Erotokritou, Shigehito Miki, Masahiro Yabuno, Hirotaka Terai, Corin B. E. Gawith, Michael Kues, Lucia Caspani, Robert H. Hadfield, Matteo Clerici

2020Science Advances65 citationsDOIOpen Access PDF

Abstract

Quantum-enhanced optical systems operating within the 2- to 2.5-μm spectral region have the potential to revolutionize emerging applications in communications, sensing, and metrology. However, to date, sources of entangled photons have been realized mainly in the near-infrared 700- to 1550-nm spectral window. Here, using custom-designed lithium niobate crystals for spontaneous parametric down-conversion and tailored superconducting nanowire single-photon detectors, we demonstrate two-photon interference and polarization-entangled photon pairs at 2090 nm. These results open the 2- to 2.5-μm mid-infrared window for the development of optical quantum technologies such as quantum key distribution in next-generation mid-infrared fiber communication systems and future Earth-to-satellite communications.

Topics & Concepts

Quantum entanglementPhotonInterference (communication)PhysicsQuantum mechanicsQuantum interferenceQuantumQuantum sensorQuantum networkComputer scienceTelecommunicationsChannel (broadcasting)Quantum Information and CryptographyNonlinear Optical Materials StudiesOrbital Angular Momentum in Optics
Two-photon quantum interference and entanglement at 2.1 μm | Litcius