Citations: Universal optimal cloning of qubits and quantum registers

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V. Buzek and M. Hillery, "Universal optimal cloning of qubits and quantum registers," LANL e-print quant-ph/9801009, 1998. 213

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Quantum Information Theory - Barnum, III (1998) (Correct)

....The problem of information disturbance tradeoff is closely related to the problems of cloning and broadcasting, and a very interesting area for research is the relation between these tasks. Much research has been done over the past few years on approximate cloning of pure states [70] 71] [72], 73] 74] 75] 76] 77] 78] 79] but relating it to the information disturbance question is a relatively unexplored area (cf. however, 73] There is clearly some relation, since a perfect cloner would allow asymptotically complete information extraction with zero disturbance. Just make ....

V. Buzek and M. Hillery, "Universal optimal cloning of qubits and quantum registers," LANL e-print quant-ph/9801009, 1998. 213

On Quantum Fidelities and Channel Capacities - Barnum, Knill, Nielsen (2000) (5 citations) (Correct)

....a set of mutually exclusive classical states; in quantum mechanics, a quantum state represented by a vector in a Hilbert space, or a density operator on that space. Classically, the input system may retain its original state, while the no cloning theorem and related results [1] 2] 3] 4] 5] [6], 7] 8] 9] 10] 11] 12] imply that in the quantum case the input system cannot in general remain in its initial state. Both theories allow the use of encoding and decoding operations to increase the delity with which states are transmitted. Due partly to the peculiarly quantum fact that a ....

V. Buzek and M. Hillery, \Universal optimal cloning of qubits and quantum registers," LANL e-print quant-ph/9801009, 1998.

Alternative Computational Models: A Comparison of Biomolecular and .. - Reif (1998) (1 citation) (Correct)

....into classical and quantum components. The input can then be reconstructed from these components with perfect fidelity. How can one cope with communication errors and attenuation in a quantum network Wootters, Zurek [WZ82] proved that a single quantum cannot be cloned. note: Buzek, Hillery [BH98] recently claimed a universal optimal cloning of qubits and quantum registers in a distributed quantum network, but this seem inconsistent with the no coning theorem) That no cloning theorem implies that once a signal becomes attenuated in a an optical fiber communication channel, then it cannot ....

V. Buzek, M. Hillery, Universal optimal cloning of qubits and quantum registers, (Online preprint quantph /9801009), QCQC 98, (Feb. 1998).

Quantum Information Processing: Compression, Coding, and Related.. - Reif (1985) (Correct)