Enhancing Long-distance Continuous-variable Quantum-key-distribution with an Error-correcting Relay

S. Nibedita Swain; Ryan J. Marshman; Josephine Dias; Alexander S. Solntsev; Timothy C. Ralph

Paper

Enhancing Long-distance Continuous-variable Quantum-key-distribution with an Error-correcting Relay

Abstract

Noiseless linear amplifiers (NLAs) serve as an effective means to enable long-distance continuous-variable (CV) quantum key distribution (QKD), even under realistic conditions with non-unit reconciliation efficiency. Separately, unitary averaging has been suggested to mitigate some stochastic noise, including phase noise in continuous-variable states. In this work, we combine these two protocols to simultaneously compensate for thermal-loss effects and suppress phase noise, thereby enabling long-distance CV QKD that surpasses the repeaterless bound, the fundamental rate-distance limit, for repeaterless quantum communication systems.