Lightweight authentication for quantum key distribution
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Quantum key distribution (QKD) enables unconditionally secure communication between distinct parties using a quantum channel and an authentic public channel. Reducing the portion of quantum-generated secret keys, that is consumed during the authentication procedure, is of significant importance for improving the performance of QKD systems. In the present work, we develop a lightweight authentication protocol for QKD based on a `ping-pong' scheme of authenticity check for QKD. An important feature of this scheme is that the only one authentication tag is generated and transmitted during each of the QKD post-processing rounds. For the tag generation purpose, we design an unconditionally secure procedure based on the concept of key recycling. The procedure is based on the combination of almost universal_2 polynomial hashing, XOR universal_2 Toeplitz hashing, and one-time pad (OTP) encryption. We also demonstrate how to minimize both the length of the recycled key and the size of the authentication key, that is required for OTP encryption. Finally, we provide a security analysis of the full key growing process in the framework of universally composable security.
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