Eavesdropping a quantum key distribution network using sequential quantum unsharp measurement attacks

We investigate the possibility of eavesdropping on a quantum key distribution network by local sequential quantum unsharp measurement attacks by the eavesdropper. In particular, we consider a pure two-qubit state shared between two parties Alice and Bob, sharing quantum steerable correlations that f...

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Bibliographic Details
Published in:European physical journal plus 2023-01, Vol.138 (1), p.54, Article 54
Main Authors: Wath, Yash, Hariprasad, M., Shah, Freya, Gupta, Shashank
Format: Article
Language:English
Subjects:
Applied and Technical Physics
Atomic
Codes
Complex Systems
Condensed Matter Physics
Eavesdropping
Entangled states
Inequality
Mathematical and Computational Physics
Measuring instruments
Molecular
Monogamy
Optical and Plasma Physics
Physics
Physics and Astronomy
Protocol
Quantum cryptography
Qubits (quantum computing)
Random variables
Regular Article
Theoretical
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Summary:We investigate the possibility of eavesdropping on a quantum key distribution network by local sequential quantum unsharp measurement attacks by the eavesdropper. In particular, we consider a pure two-qubit state shared between two parties Alice and Bob, sharing quantum steerable correlations that form the one-sided device-independent quantum key distribution network. One qubit of the shared state is with Alice and the other one while going to Bob’s place is intercepted by multiple sequential eavesdroppers who perform quantum unsharp measurement attacks thus gaining some positive key rate while preserving the quantum steerable correlations for Bob. In this way, Bob will also have a positive secret key rate although reduced. However, this reduction is not that sharp and can be perceived due to the decoherence and imperfection of the measurement devices. We found that there is a possibility of sequential eavesdropping even after setting a minimum threshold on the observed secure key rate by Alice and Bob. In the end, we show that an unbounded number of eavesdroppers can also get secret information in some specific scenario.
ISSN:2190-5444
2190-5444
DOI:10.1140/epjp/s13360-023-03664-4