The paper proves finite-size general security for relativistic phase shift keying (RPSK) achieving secret key rates beyond 12 dB with 10^5 signals via entropy accumulation, Rényi leftover hashing, and conic optimization.
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Finite-size general security for relativistic phase shift keying via variable-length quantum key distribution
The paper proves finite-size general security for relativistic phase shift keying (RPSK) achieving secret key rates beyond 12 dB with 10^5 signals via entropy accumulation, Rényi leftover hashing, and conic optimization.