Afterpulsing Effect on the Baseline System Error Rate and on the Decoy-State Quantum Key Distribution Protocols

Abstract: There is considerable interest in predicting the efficiency of Quantum Key Distribution (QKD) protocols when one of their implementation quantities is modified. One significant imperfection that affects the efficiency of the setup is the afterpulse phenomenon which consists in the spontaneous detections triggered by trapped carriers after previous avalanches at the detectors. While it is widely studied in bibliography for various QKD protocols, it has been reported much more scarcely for the well-known decoy-s… Show more

“…Another factor that needs to be accounted for is the afterpulsing phenomena which represents the spontaneous detection events being triggered by trapped carriers after previous avalanches at the detector [26]. It depends on the detector afterpulsing probability (P AP ) and the number of detector clicks generated from different sources.…”

Quantum BER estimation modelling and analysis for satellite‐based quantum key distribution scenarios

“…Another factor that needs to be accounted for is the afterpulsing phenomena which represents the spontaneous detection events being triggered by trapped carriers after previous avalanches at the detector [26]. It depends on the detector afterpulsing probability (P AP ) and the number of detector clicks generated from different sources.…”

Quantum BER estimation modelling and analysis for satellite‐based quantum key distribution scenarios