Our results show a viable route to free-space quantum-secured communication in an unexplored atmospheric transparency window. Quantum-enhanced optical systems operating within the 2- to 2.5-μm spectral region have the potential… Click to show full abstract
Our results show a viable route to free-space quantum-secured communication in an unexplored atmospheric transparency window. 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.
               
Click one of the above tabs to view related content.