Journal
IEEE TRANSACTIONS ON COMMUNICATIONS
Volume 71, Issue 4, Pages 2246-2259Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TCOMM.2023.3244244
Keywords
Photonics; Detectors; Jitter; Protocols; Crystals; Quantum channels; Modulation; Quantum key distribution; time binning; detection jitter; detector downtime; single photon detection
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We develop new methods to quantify the impact of photon detector imperfections on secret key rates in Time-Entanglement based Quantum Key Distribution (QKD). We investigate photon detection timing jitter, detector downtime, and dark photon counts, and show how each affects the achievable secret key rate differently. Our results provide a tool for experimentalists to predict their systems' secret key rate given the detector specifications.
We develop new methods of quantifying the impact of photon detector imperfections on possible secret key rates in Time-Entanglement based Quantum Key Distribution (QKD). We address photon detection timing jitter, detector downtime, and dark photon counts and show how each may decrease the maximum achievable secret key rate differently. We begin with a standard Discrete Memoryless Channel (DMC) model to get a good bound on the mutual information lost due to the timing jitter, then introduce a novel Markov Chain (MC) based model to characterize the effect of detector downtime and show how it introduces memory to the key generation process. Finally, we propose a new method of including dark counts in the analysis that shows how dark counts can be especially detrimental when using the common Pulse Position Modulation (PPM) for key generation. Our results show that these three imperfections can significantly reduce the achievable secret key rate when using PPM for QKD. One of our main results is providing tooling for experimentalists to predict their systems' achievable secret key rate given the detector specifications.
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