Seedless Extractors for Device-Independent Quantum Cryptography
Seedless Extractors for Device-Independent Quantum Cryptography
Device-independent (DI) quantum cryptography aims at providing secure cryptography with minimal trust in, or characterisation of, the underlying quantum devices. An essential step in DI protocols is randomness extraction (or privacy amplification) which requires the honest parties to have a seed of additional bits with sufficient entropy and statistical independence …