High-speed polarization-encoded quantum key distribution based on silicon photonic integrated devices

ORAL

Abstract

We present a compact polarization-encoded quantum key distribution (QKD) transmitter near a 1550-nm wavelength implemented on a CMOS-compatible silicon-on-insulator photonics platform. The transmitter generates arbitrary polarization qubits at gigahertz bandwidth with an extinction ratio better than 30 dB using high-speed carrier-depletion phase modulators. We demonstrate the performance of this device by generating secret keys at a rate of 1 Mbps in a complete QKD field test. Our work shows the potential of using advanced photonic integrated circuits to enable high-speed quantum-secure communications.

*This work was supported by the SECANT QKD Grand Challenge, the Samsung Global Research Outreach Program, and the Air Force Office of Scientific Research.

Authors

  • Darius Bunandar

    • Massachusetts Inst of Tech-MIT

  • Junji Urayama

    • Sandia National Laboratories

  • Nicholas Boynton

    • Sandia National Laboratories

  • Nicholas Martinez

    • Sandia National Laboratories

  • Christopher DeRose

    • Sandia National Laboratories

  • Anthony Lentine

    • Sandia National Laboratories

  • Paul Davids

    • Sandia National Laboratories

  • Ryan Camacho

    • Sandia National Laboratories

  • Franco Wong

    • Massachusetts Inst of Tech-MIT

  • Dirk Englund

    • Massachusetts Inst of Tech-MIT