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相关论文: Optimal eavesdropping in quantum cryptography with…

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We consider the Bennett-Brassard cryptographic scheme, which uses two conjugate quantum bases. An eavesdropper who attempts to obtain information on qubits sent in one of the bases causes a disturbance to qubits sent in the other basis. We…

量子物理 · 物理学 2007-05-23 Christopher A. Fuchs , Nicolas Gisin , Robert B. Griffiths , Chi-Sheng Niu , Asher Peres

We calculate eavesdropper's optimal information on raw bits in Bennett-Brassard 1984 quantum key distribution (BB84 QKD) and six-state scheme in coherent attacks, using a formula by Lo and Chau [Science 283 (1999) 2050] with single photon…

量子物理 · 物理学 2009-11-06 W. Y. Hwang , D. Ahn , S. W. Hwang

We present and analyze a quantum key distribution protocol based on sending entangled N-qubit states instead of single-qubit ones as in the trail-blazing scheme by Bennett and Brassard (BB84). Since the qubits are sent individually, an…

量子物理 · 物理学 2008-10-07 Olli Ahonen , Mikko Mottonen , Jeremy L. O'Brien

The safety of a quantum key distribution system relies on the fact that any eavesdropping attempt on the quantum channel creates errors in the transmission. For a given error rate, the amount of information that may have leaked to the…

量子物理 · 物理学 2009-10-28 B. Huttner , N. Imoto , N. Gisin , T. Mor

An elementary derivation of best eavesdropping strategies for the 4 state BB84 quantum cryptography protocol is presented, for both incoherent and two--qubit coherent attacks. While coherent attacks do not help Eve to obtain more…

量子物理 · 物理学 2009-10-30 J. I. Cirac , N. Gisin

We study optimal eavesdropping in quantum cryptography with three-dimensional systems, and show that this scheme is more secure than protocols using two-dimensional states. We generalize the according eavesdropping transformation to…

量子物理 · 物理学 2009-11-07 D. Bruss , C. Macchiavello

We examine a situation that $n$ eavesdroppers attack the Bennett-Brassard cryptographic protocol via their own optimal and symmetric strategies. Information gain and mutual information with sender for each eavesdropper are explicitly…

量子物理 · 物理学 2009-11-13 Eylee Jung , Mi-Ra Hwang , DaeKil Park , Hungsoo Kim , Eui-Soon Yim , Jin-Woo Son

All incoherent as well as 2- and 3-qubit coherent eavesdropping strategies on the 6 state protocol of quantum cryptography are classified. For a disturbance of 1/6, the optimal incoherent eavesdropping strategy reduces to the universal…

量子物理 · 物理学 2013-01-22 H. Bechmann-Pasquinucci , N. Gisin

In this article I present a protocol for quantum cryptography which is secure against attacks on individual signals. It is based on the Bennett-Brassard protocol of 1984 (BB84). The security proof is complete as far as the use of single…

量子物理 · 物理学 2009-10-31 Norbert Lütkenhaus

We present security proofs for a protocol for Quantum Key Distribution (QKD) based on encoding in finite high-dimensional Hilbert spaces. This protocol is an extension of Bennett's and Brassard's basic protocol from two bases, two state…

量子物理 · 物理学 2009-11-07 Mohamed Bourennane , Anders Karlsson , Gunnar Bjork , Nicolas Gisin , Nicolas Cerf

Quantum key distribution based on encoding in three dimensional systems in the presence of several eavesdroppers is proposed. This extends the BB84 protocol in the presence of many eavesdroppers where two-level quantum systems (qubits) are…

量子物理 · 物理学 2015-06-11 M. Daoud , H. Ez-zahraouy

The first quantum cryptography protocol, proposed by Bennett and Brassard in 1984 (BB84), has been widely studied in the last years. This protocol uses four states (more precisely, two complementary bases) for the encoding of the classical…

量子物理 · 物理学 2009-11-11 Cyril Branciard , Nicolas Gisin , Barbara Kraus , Valerio Scarani

We study eavesdropping in quantum key distribution with the six state protocol,when the signal states are mixed with white noise. This situation may arise either when Alice deliberately adds noise to the signal states before they leave her…

量子物理 · 物理学 2009-06-08 Z. Shadman , H. Kampermann , T. Meyer , D. Bruss

Entanglement-measurement attack is one of the most famous attacks against quantum cryptography. In quantum cryptography protocols, eavesdropping checking is an effective means to resist this attack. There are currently two commonly used…

量子物理 · 物理学 2026-01-09 Zhaoxu Ji , Huanguo Zhang

We present a generalized tomographic quantum key distribution protocol in which the two parties share a Bell diagonal mixed state of two qubits. We show that if an eavesdropper performs a coherent measurement on many quantum ancilla states…

The quantum key distribution protocol BB84, published by C. H. Bennett and G. Brassard in 1984, describes how two spatially separated parties can generate a random bit string fully known only to them by transmission of single-qubit quantum…

量子物理 · 物理学 2007-12-28 Olli Ahonen

Quantum communication in general helps deter potential eavesdropping in the course of transmission of bits to enable secure communication between two or more parties. In this paper, we propose a novel quasi-deterministic secure quantum…

量子物理 · 物理学 2021-03-08 Sujan Vijayaraj , S. Balakrishnan , K. Senthilnathan

We propose a novel double-entanglement-based quantum cryptography protocol that is both efficient and deterministic. The proposal uses photon pairs with entanglement both in polarization and in time degrees of freedom; each measurement in…

量子物理 · 物理学 2009-11-11 Zeng-Bing Chen , Qiang Zhang , Xiao-Hui Bao , J. Schmiedmayer , Jian-Wei Pan

Intermediate states are known from intercept/resend eavesdropping in the BB84 quantum cryptographic protocol. But they also play fundamental roles in the optimal eavesdropping strategy on BB84 and in the CHSH inequality. We generalize the…

量子物理 · 物理学 2009-11-07 H. Bechmann-Pasquinucci , N. Gisin

Using polarization-entangled photons from spontaneous parametric downconversion, we have implemented Ekert's quantum cryptography protocol. The near-perfect correlations of the photons allow the sharing of a secret key between two parties.…

量子物理 · 物理学 2009-10-31 D. S. Naik , C. G. Peterson , A. G. White , A. J. Berglund , P. G. Kwiat
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