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Quantum secure direct communication based on single-photon Bell-state measurement

Tao Li, Gui‐Lu Long

2020New Journal of Physics120 citationsDOIOpen Access PDF

Abstract

Abstract Security loopholes exploiting the flaws of practical apparatus, especially non-ideal photon detectors, are pressing issues in practical quantum communication. We propose a simple quantum secure direct communication protocol based on single-photon Bell-state measurement and remove side-channel attacks on photon detectors. This quantum communication protocol in principle works in a deterministic way, and it does not require the two-photon interference of photons from independent sources. The single-photon Bell-state measurement with a unity efficiency can be constructed with only linear optics, which significantly simplifies its experimental implementation. Furthermore, we prove that our quantum secure direct communication protocol is immune to general detector-side-channel attacks.

Topics & Concepts

PhysicsPhotonQuantum information scienceBell stateQuantum channelDetectorBell's theoremQuantum cryptographyProtocol (science)Quantum networkSecure communicationState (computer science)Interference (communication)QuantumQuantum mechanicsChannel (broadcasting)Quantum entanglementQuantum informationOpticsComputer scienceTelecommunicationsComputer networkAlgorithmMedicineAlternative medicineEncryptionPathologyQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum optics and atomic interactions
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