熵和纠缠度参考文献.doc

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No. P06015 JUN 20064 Zheng YQEntropy of Dirac field in a generalized non-stationary spherically symmetric black hole with chargeACTA PHYSICA SINICA 55 (7): 3272-3276 JUL 20065 Abe STemperature of nonextensive systems: Tsallis entropy as Clausius entropyPHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS 368 (2): 430-434 AUG 15 20066 Scarfone AMThermal and mechanical equilibrium among weakly interacting systems in generalized thermostatistics frameworkPHYSICS LETTERS A 355 (4-5): 404-412 JUL 10 20067 Figueiredo A, Amato MA, da Rocha TMOn the statistical interpretation of generalized entropiesPHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS 367: 191-206 JUL 15 20068 Suyari HMathematical structures derived from the q-multinomial coefficient in Tsallis statisticsPHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS 368 (1): 63-82 AUG 1 20069 Tsallis COn the extensivity of the entropy S-q, the q-generalized central limit theorem and the q-tripletPROGRESS OF THEORETICAL PHYSICS SUPPLEMENT (162): 1-9 200610 Suyari HThe unique non self-referential q-canonical distribution and the physical temperature derived from the maximum entropy principle in Tsallis statisticsPROGRESS OF THEORETICAL PHYSICS SUPPLEMENT (162): 79-86 200611 Bagci GB, Arda A, Sever ROn the problem of constraints in nonextensive formalism: A quantum mechanical treatmentINTERNATIONAL JOURNAL OF MODERN PHYSICS B 20 (14): 2085-2092 JUN 10 200612 Santamaria-Holek I, Rodriguez RFA nonequilibrium thermodynamic approach to generalized statistics for Brownian motionPHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS 366 (1): 141-148 JUL 1 200613 Simovici DA, Jaroszewicz SGeneralized conditional entropy and a metric splitting criterion for decision treesLECTURE NOTES IN ARTIFICIAL INTELLIGENCE 3918: 35-44 200614 Emparan RBlack hole entropy as entanglement entropy: a holographic derivationJOURNAL OF HIGH ENERGY PHYSICS (6): Art. No. 012 JUN 200615 Das S, Shankaranarayanan SHow robust is the entanglement entropy-area relation?PHYSICAL REVIEW D 73 (12): Art. No. 121701 JUN 200616 Fursaev DVEntanglement entropy in critical phenomena and analog models of quantum gravityPHYSICAL REVIEW D 73 (12): Art. No. 124025 JUN 200617 Ryu S, Hatsugai YEntanglement entropy and the Berry phase in the solid statePHYSICAL REVIEW B 73 (24): Art. No. 245115 JUN 200618 Hostens E, Dehaene J, De Moor BAsymptotic adaptive bipartite entanglement-distillation protocolPHYSICAL REVIEW A 73 (6): Art. No. 062337 JUN 200619 Fursaev DVEntanglement and gravitational physicsJOURNAL OF PHYSICS A-MATHEMATICAL AND GENERAL 39 (21): 6385-6391 MAY 26 2006Abstract. It is argued that the entanglement entropy in condensed matter systems can be used to study different aspects of quantum gravity, such as universality of the low-energy physics, the renormalization group behaviour of the gravitational coupling and the statistical meaning of the BekensteinHawking entropy.20 Xiong HN, Hong G, Jian J, et al.The relation between the entanglement of two atoms and the entanglement of two-mode fieldsACTA PHYSICA SINICA 55 (6): 2720-2725 JUN 200621 Abd Al-Kader GMEntropy and entanglement of the superpositions of displaced Fock states with a two-level atomINTERNATIONAL JOURNAL OF MODERN PHYSICS B 20 (11-13): 1269-1279 Part 1 Sp. Iss. SI MAY 20 200622 Zukarnain ZA, Konstadopoulou A, Vourdas AMeasurements and correlations in tri-partite systemsINTERNATIONAL JOURNAL OF MODERN PHYSICS B 20 (11-13): 1551-1563 Part 1 Sp. Iss. SI MAY 20 200623 Myung YSEntanglement system, Casimir energy and black holePHYSICS LETTERS B 636 (6): 324-329 MAY 25 200624 Liao XP, Fang MF, Zhou QPQuantum entanglement in the SU(1,1)-related coherent fields interacting with a moving atomPHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS 365 (2): 351-359 JUN 15 200625 Sharma SS, Sharma NKDynamics of tripartite entanglementPHYSICA SCRIPTA T118: 272-275 2005Maximally entangled states are of utmost importance to quantum communication, dense coding, and quantum teleportation. With a trapped ion placed inside a high finesse optical cavity, interacting with field of an external laser and quantized cavity field, a scheme to generate a maximally entangled three qubit GHZ state, is proposed. The dynamics of tripartite entanglement is investigated, using negativity as an entanglement measure and linear entropy as a measure of mixedness of a state. It is found that (a) the number of modes available to the subsystem determines the maximum entanglement of a subsystem, b) at entanglement maxima and minima, linear entropy and negativity uniquely determine the nature of state, but the two measures do not induce the same ordering of states, and c) for a special choice of system parameters maximally entangled tripartite two mode GHZ state is generated. The scheme presented for GHZ state generation is a single step process and is reduction free. PACS: 03.67.-a, 42.50.-p, 03.67.Dd 26 Huang CJ, He HY, Zhou M, et al.Entropy evolution of field interacting with two entangled-atomsACTA PHYSICA SINICA 55 (4): 1764-1768 APR 200627 Kitaev A, Preskill JTopological entanglement entropyPHYSICAL REVIEW LETTERS 96 (11): Art. No. 110404 MAR 24 200628 Zhang R, Zhu SQThermal entanglement in a two-dimensional Heisenberg XY modelPHYSICS LETTERS A 348 (3-6): 110-118 JAN 2 200629 Gao YF, Feng J, Wang JSEvolution of field entropy and entanglement in the intensity-dependent two-mode Jaynes-Cummings modelCHINESE PHYSICS 14 (5): 980-984 MAY 200530 Zhou QC, Zhu SNDynamics of a single-mode field interacting with a Lambda-type three-level atomOPTICS COMMUNICATIONS 248 (4-6): 437-448 APR 15 200531 Datta A, Ghosh B, Majumdar AS, et al.Information transfer through a one-atom micromaserEUROPHYSICS LETTERS 67 (6): 934-940 SEP 200432 Obada ASF, Abdel-Khalek S, El-Shahat TMEntanglement of a two-level system in a two-mode pair coherent stateJOURNAL OF THE KOREAN PHYSICAL SOCIETY 44 (4): 836-842 APR 200433 Obada ASF, Ahmed MMA, Faramawy FK, et al.Entropy and entanglement of the nonlinear Jaynes-Cummings modelCHINESE JOURNAL OF PHYSICS 42 (1): 79-91 FEB 200434 Abdel-Aty MMixed-state entanglement of a three-level system with an intensity-dependent interactionJOURNAL OF PHYSICS A-MATHEMATICAL AND GENERAL 37 (5): 1759-1773 FEB 6 200435 Zait RANonclassical statistical properties of a three-level atom interacting with a single-mode field in a Kerr medium with intensity dependent couplingPHYSICS LETTERS A 319 (5-6): 461-474 DEC 15 200336 Liu XJ, Fang MFEntangled states in the two-mode coherent fields interacting with a two-level atomCHINESE PHYSICS 12 (9): 971-976 SEP 200337 Li CX, Fang MFLinear entropy dynamics of the field in the Jaynes-Cummings model with an intensity-dependent coupling in the dispersive approximationCHINESE PHYSICS 12 (8): 866-871 AUG 200338 Abdalla MS, Abdel-Aty M, Obada ASFEntropy and entanglement of time dependent two-mode Jaynes-Cummings modelPHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS 326 (1-2): 203-219 AUG 1 200339 Abdel-Aty MQuantum field entropy and entanglement of a three-level atom two-mode system with an arbitrary nonlinear mediumJOURNAL OF MODERN OPTICS 50 (2): 161-177 JAN 2040 Livine ER, Terno DRQuantum black holes: Entropy and entanglement on the horizonNUCLEAR PHYSICS B 741 (1-2): 131-161 MAY 1 200641 Terno DRFrom qubits to black holes: Entropy, entanglement and all thatINTERNATIONAL JOURNAL OF MODERN PHYSICS D 14 (12): 2307-2314 DEC 200542 Shi YEntanglement in relativistic quantum field theoryPHYSICAL REVIEW D 70 (10): Art. No. 105001 NOV 2004I present some general ideas about quantum entanglement in relativistic quantum field theory, especially entanglement in the physical vacuum. Here, entanglement is defined between different single particle states (or modes), parameterized either by energy-momentum tog