The key rounds—i.e., those in whichβ=Z,a, b∈ {0,1}, andµ= 0—are used to generate the users’ sifted keys

Alice, Bob publicly exchange classical information, decide if the round is assigned askeyortestround

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Numerical security analysis for practical quantum key distribution

quant-ph · 2026-05-13 · unverdicted · novelty 6.0

A numerical framework proves finite-key security for practical decoy-state QKD systems with transmitter and receiver imperfections including non-IID signals.

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Numerical security analysis for practical quantum key distribution quant-ph · 2026-05-13 · unverdicted · none · ref 3
A numerical framework proves finite-key security for practical decoy-state QKD systems with transmitter and receiver imperfections including non-IID signals.

The key rounds—i.e., those in whichβ=Z,a, b∈ {0,1}, andµ= 0—are used to generate the users’ sifted keys

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