VERS UNE MEMOIRE QUANTIQUE AVEC DES IONS PIEGES

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tel-00430795, version 1 - 9 Nov 2009 184 BIBLIOGRAPHIE [14] R. Feynman. Simulating physics with computers. International Journal of Theoretical Physics, 21(6) :467, 1982. [15] S. Wiesner. Conjugate coding. ACM SIGACT News, 15, 1983. [16] C. H. Bennett, G. Brassard, and J. Robert. Privacy amplification by public discussion. SIAM J. Comput., 17(2) :210, 1988. [17] D. Deutsch, A. Ekert, R. Jozsa, C. Macchiavello, S. Popescu, and A. Sanpera. Quantum privacy amplification and the security of quantum cryptography over noisy channels. Physical Review Letters, 77(13) :2818, 1996. [18] A. Ekert. Quantum cryptography based on Bell’s theorem. Physical Review Letters, 67(6) :661, 1991. [19] C. H. Bennett. Quantum cryptography using any two nonorthogonal states. Physical Review Letters, 68(21) :3121, 1992. [20] C. H. Bennett, G. Brassard, and N. D. Mermin. Quantum cryptography without Bell’s theorem. Physical Review Letters, 68(5) :557, 1992. [21] C. H. Bennett, F. Bessette, G. Brassard, L. Salvail, and J. Smolin. Experimental quantum cryptography. Journal of Cryptology, 5(1) :3, 1992. [22] N. Gisin, G. Ribordy, W. Tittel, and H. Zbinden. Quantum cryptography. Reviews of Modern Physics, 74(1) :145, 2002. [23] L. M. K. Vandersypen, M. Steffen, G. Breyta, C. S. Yannoni, M. H. Sherwood, and I. L. Chuang. Experimental realization of Shor’s quantum factoring algorithm using nuclear magnetic resonance. Nature, 414 :883, 2001. [24] J. I. Cirac and P. Zoller. Quantum computations with cold trapped ions. Physical Review Letters, 74(20) :4091, 1995. [25] T. Sleator and H. Weinfurter. Realizable universal quantum logic gates. Physical Review Letters, 74(20) :4087, 1995. [26] A. Barenco, D. Deutsch, A. Ekert, and R. Jozsa. Conditional quantum dynamics and logic gates. Physical Review Letters, 74(20) :4083, 1995. [27] W. G. Teich, K. Obermayer, and G. Mahler. Structural basis of multistationary quantum systems. II. effective few-particle dynamics. Physical Review B, 37(14) :8111, 1988. [28] A Cottet, D. Vion, A. Aassime, Joyez P., D. Esteve, and M.H. Devoret. Implementation of a combined charge-phase quantum bit in a superconducting circuit. Physica C, 367 :197, 2002. [29] I. L. Chuang and Y. Yamamoto. Simple quantum computer. Physical Review A, 52(5) :3489, 1995. [30] J. Benhelm, G. Kirchmair, C. F. Roos, and R. Blatt. Towards fault-tolerant quantum computing with trapped ions. Nature Physics, 4(6) :463, 2008. [31] H. Häffner, W. Hänsel, C. F. Roos, J. Benhelm, D. Chek-al kar, M. Chwalla, T. Körber, D. Rapol, M. Riebe, P. O. Schmidt, C. Becher, O. Gühne, W. Dür, and R. Blatt. Scalable multiparticle entanglement of trapped ions. Nature, 438 :643, 2005. [32] H. Hübel, M. R. Vanner, T. Lederer, B. Blauensteiner, T. Lorünser, A. Poppe, and A. Zeilinger. High-fidelity transmission of polarization encoded qubits from an entangled source over 100 km of fiber. Optics Express, 15(12) :7853, 2007.
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