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Asynchronous measurement-device-independent quantum key distribution with hybrid source

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arxiv 2304.04569 v3 pith:SKXI2MKW submitted 2023-04-10 quant-ph cs.CR

Asynchronous measurement-device-independent quantum key distribution with hybrid source

classification quant-ph cs.CR
keywords protocolsourceamdi-qkdasynchronousdistributionhybridlightmeasurement-device-independent
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The linear constraint of secret key rate capacity is overcome by the tiwn-field quantum key distribution (QKD). However, the complex phase-locking and phase-tracking technique requirements throttle the real-life applications of twin-field protocol. The asynchronous measurement-device-independent (AMDI) QKD or called mode-pairing QKD protocol can relax the technical requirements and keep the similar performance of twin-field protocol. Here, we propose an AMDI-QKD protocol with a nonclassical light source by changing the phase-randomized weak coherent state to a phase-randomized coherent-state superposition in the signal state time window. Simulation results show that our proposed hybrid source protocol significantly enhances the key rate of the AMDI-QKD protocol, while exhibiting robustness to imperfect modulation of nonclassical light sources.

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