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Title: Improving fidelity of quantum cloning via the Dzyaloshinskii-Moriya interaction in a spin network

Journal Article · · Physical Review. A
;  [1];  [2]; ;  [3]
  1. Department of Physics, College of Science, Yanbian University, Yanji, Jilin 133002 (China)
  2. Center for the Condensed-Matter Science and Technology, Harbin Institute of Technology, Harbin, Heilongjiang 150001 (China)
  3. BK21 Physics Program and Department of Physics, College of Natural Sciences, Chungbuk National University, Cheongju, Chungbuk, 361-763 (Korea, Republic of)
+ Show Author Affiliations

We investigate the effect of the Dzyaloshinskii-Moriya (DM) interaction on the fidelity of the 1{yields}M phase-covariant cloning machine (PCCM) in a spin star network. The results of numerical calculation show that the DM interaction can further improve the cloning fidelity to reach the optimal value. Furthermore, the physical mechanism is investigated by analyzing the effect of the DM interaction on the populations of the qubits. It is shown that the DM interaction leads to the populations of states |1>|S(M,k+1)> and |1>|S(M,k)>[or |0>|S(M,k)> and |0>|S(M,k-1)>] simultaneously reaching the maximum or minimum value periodically, where the first ket |i> ( is an element of 0,1) in |i>|S(M,k)> denotes the state of central spin with |0> and |1> representing the spin-up and spin-down states, respectively, while the second ket |S(M,k)> denotes the state of outer spins with M being the total number of outer spins and k the number of up spins. At these extreme overlapping points of two states, the fidelity of quantum cloning can reach optimal value. Finally the forms of these two different 1{yields}M optimal cloning transformations are presented.

OSTI ID:
21408407
Journal Information:
Physical Review. A, Vol. 81, Issue 3; Other Information: DOI: 10.1103/PhysRevA.81.032338; (c) 2010 The American Physical Society; ISSN 1050-2947
Country of Publication:
United States
Language:
English

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Related Subjects

71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
INTERACTIONS
LEAD
PERIODICITY
QUBITS
SPIN
TRANSFORMATIONS
ANGULAR MOMENTUM
ELEMENTS
INFORMATION
METALS
PARTICLE PROPERTIES
QUANTUM INFORMATION
VARIATIONS