Floodlight quantum key distribution: Demonstrating a framework for high-rate secure communication

Author(s)

Zhang, Zheshen; Zhuang, Quntao; Shapiro, Jeffrey H; Wong, Ngai Chuen

Abstract

Floodlight quantum key distribution (FL-QKD) is a radically different QKD paradigm that can achieve gigabit-per-second secret-key rates over metropolitan area distances without multiplexing [Q. Zhuang et al., Phys. Rev. A 94, 012322 (2016)]. It is a two-way protocol that transmits many photons per bit duration and employs a high-gain optical amplifier, neither of which can be utilized by existing QKD protocols, to mitigate channel loss. FL-QKD uses an optical bandwidth that is substantially larger than the modulation rate and performs decoding with a unique broadband homodyne receiver. Essential to FL-QKD is Alice's injection of photons from a photon-pair source—in addition to the light used for key generation—into the light she sends to Bob. This injection enables Alice and Bob to quantify Eve's intrusion and thus secure FL-QKD against collective attacks. Our proof-of-concept experiment included 10 dB propagation loss—equivalent to 50 km of low-loss fiber—and achieved a 55 Mbit/s secret-key rate (SKR) for a 100 Mbit/s modulation rate, as compared to the state-of-the-art system's 1 Mbit/s SKR for a 1 Gbit/s modulation rate [M. Lucamarini et al., Opt. Express 21, 24550 (2013)], representing ∼500-fold and ∼50 fold improvements in secret-key efficiency (bits per channel use) and SKR (bits per second), respectively.

Date issued

2017-01

URI

http://hdl.handle.net/1721.1/107212

Department

Massachusetts Institute of Technology. Department of Physics
Massachusetts Institute of Technology. Research Laboratory of Electronics

Journal

Physical Review A

Publisher

American Physical Society

Citation

Zhang, Zheshen et al. “Floodlight Quantum Key Distribution: Demonstrating a Framework for High-Rate Secure Communication.” Physical Review A 95.1 (2017): n. pag. © 2017 American Physical Society

Version: Final published version

ISSN

1050-2947

1094-1622