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Abstract: . It has recently been shown that shared cryptographic quantum bits are achievable through the use of an optical coupler, instead of polarised photons. We show that such shared cryptographic bits can also be produced by using a different optical apparatus - a beam-splitter. An important advantage of such a system is that it could be experimentally more feasible than an optical coupler. 1 Introduction The central idea behind quantum cryptography is that an eavesdropper cannot monitor... (Update)
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BibTeX entry: (Update)
@inproceedings{ mu96alternative,
author = "Yi Mu and Yuliang Zheng",
title = "An alternative model of quantum key agreement via photon coupling",
booktitle = "Australasian Conference on Information Security and Privacy",
pages = "320-331",
year = "1996",
url = "citeseer.ist.psu.edu/mu96alternative.html" }
Citations (may not include all citations):67 Experimental quantum cryptography - Bennett, Bessette et al. - 1992
55 Teleporting an unknown quantum state via dual classical and .. - Bennett, Brassard et al. - 1993
41 the Einstein Podolsky Rosen Paradox (context) - Bell - 1964
21 Quantum Theory (context) - Bohm - 1951
19 Quantum cryptography using any two nonorthogonal states (context) - Bennett - 1992
14 Quantum cryptography without Bell's theorem (context) - Bennett, Brassard et al. - 1992
13 Experimental realization of Einstein - Podolsky - Rosen - Bo.. (context) - Aspect, Grangier et al. - 1982
5 Practical quantum cryptography based on two-photon interfero.. (context) - Ekert, Rarity et al. - 1992
3 or unforgeable subway token (context) - Bennett, Brassard et al. - 1983
1 Eavesdropping strategies and rejected-data protocols in quan.. (context) - Barnett, Huttner et al. - 1993
1 Shared cryptographic bits via quantized quandrature phase am.. (context) - Mu, Seberry et al. - 1996
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