Decoherence and the Transition from Quantum to Classical—Revisited
暂无分享,去创建一个
[1] W. Zurek,et al. Quantum discord: a measure of the quantumness of correlations. , 2001, Physical review letters.
[2] Zbyszek P. Karkuszewski,et al. Breakdown of correspondence in chaotic systems: Ehrenfest versus localization times , 2000, nlin/0012048.
[3] Wojciech Hubert Zurek,et al. Sub-Planck structure in phase space and its relevance for quantum decoherence , 2001, Nature.
[4] D A Dalvit,et al. Unconditional pointer states from conditional master equations. , 2001, Physical review letters.
[5] A. Cronin,et al. From single- to multiple-pPhoton decoherence in an atom interferometer. , 2000, Physical review letters.
[6] Robin Kaiser,et al. Coherent atomic matter waves , 2001 .
[7] W. H. Zurek,et al. Einselection and decoherence from an information theory perspective , 2000, Annalen der Physik.
[8] C. Monroe,et al. Decoherence and Decay of Motional Quantum States of a Trapped Atom Coupled to Engineered Reservoirs , 2000 .
[9] Paz,et al. Decoherence and the rate of entropy production in chaotic quantum systems , 2000, Physical review letters.
[10] Vijay Patel,et al. Quantum superposition of distinct macroscopic states , 2000, Nature.
[11] Asher Peres,et al. Quantum Theory Needs No ‘Interpretation’ , 2000 .
[12] C. Monroe,et al. Decoherence of quantum superpositions through coupling to engineered reservoirs , 2000, Nature.
[13] Arjendu K. Pattanayak. LYAPUNOV EXPONENTS, ENTROPY PRODUCTION, AND DECOHERENCE , 1999, chao-dyn/9911017.
[14] Anton Zeilinger,et al. Wave–particle duality of C60 molecules , 1999, Nature.
[15] Orlando,et al. Josephson Persistent-Current Qubit , 2022 .
[16] P. Miller,et al. Signatures of chaos in the entanglement of two coupled quantum kicked tops. , 1999, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[17] Michael G. Raymer,et al. LONG-RANGE SATURATION OF SPATIAL DECOHERENCE IN WAVE-FIELD TRANSPORT IN RANDOM MULTIPLE-SCATTERING MEDIA , 1999 .
[18] J. Wheeler. Information, physics, quantum: the search for links , 1999 .
[19] J. Paz,et al. Quantum Limit of Decoherence: Environment Induced Superselection of Energy Eigenstates , 1998, quant-ph/9811026.
[20] W. Zurek,et al. Decoherence, chaos, and the correspondence principle , 1998, quant-ph/9803042.
[21] W. Zurek. Decoherence, chaos, quantum-classical correspondence, and the algorithmic arrow of time , 1998, quant-ph/9802054.
[22] S. Haroche. Entanglement, mesoscopic superpositions and decoherence studies with atoms and photons in a cavity , 1998 .
[23] Dreyer,et al. Observing the Progressive Decoherence of the "Meter" in a Quantum Measurement. , 1996, Physical review letters.
[24] J. Paz,et al. Deconstructing Decoherence , 1996, quant-ph/9611045.
[25] C. Monroe,et al. A “Schrödinger Cat” Superposition State of an Atom , 1996, Science.
[26] Zurek,et al. Decoherence of quantum fields: Pointer states and predictability. , 1995, Physical review. D, Particles and fields.
[27] Gallis. Emergence of classicality via decoherence described by Lindblad operators. , 1995, Physical review. A, Atomic, molecular, and optical physics.
[28] Rubenstein,et al. Photon scattering from atoms in an atom interferometer: Coherence lost and regained. , 1995, Physical review letters.
[29] J. Paz,et al. Quantum chaos: a decoherent definition , 1995, quant-ph/9502029.
[30] E. Wigner. Remarks on the Mind-Body Question , 1995 .
[31] Mlynek,et al. Loss of spatial coherence by a single spontaneous emission. , 1994, Physical review letters.
[32] Simon Saunders,et al. What is the Problem of Measurement , 1994 .
[33] Zurek,et al. Decoherence, chaos, and the second law. , 1994, Physical review letters.
[34] J. Paz,et al. Environment-Induced Decoherence and the Transition from Quantum to Classical , 2000, quant-ph/0010011.
[35] Zurek,et al. Environment-induced decoherence, classicality, and consistency of quantum histories. , 1993, Physical review. D, Particles and fields.
[36] Habib,et al. Coherent states via decoherence. , 1993, Physical review letters.
[37] W. Zurek. Preferred States, Predictability, Classicality and the Environment-Induced Decoherence , 1993 .
[38] Habib,et al. Reduction of the wave packet: Preferred observable and decoherence time scale. , 1993, Physical review. D, Particles and fields.
[39] H. Carmichael. An open systems approach to quantum optics , 1993 .
[40] Paz,et al. Quantum Brownian motion in a general environment: Exact master equation with nonlocal dissipation and colored noise. , 1992, Physical review. D, Particles and fields.
[41] R. Omnes. Consistent interpretations of quantum mechanics , 1992 .
[42] A. Albrecht. Investigating decoherence in a simple system. , 1991, Physical review. D, Particles and fields.
[43] Rolf Landauer,et al. Information is Physical , 1991, Workshop on Physics and Computation.
[44] W. Zurek. The Environment, Decoherence and the Transition from Quantum to Classical , 1991 .
[45] R. Omnes. From Hilbert space to common sense : a synthesis of recent progress in the interpretation of quantum mechanics , 1990 .
[46] M. Teich,et al. Squeezed and Antibunched Light , 1990 .
[47] W. H. Zurek. Complexity, Entropy and the Physics of Information , 1990 .
[48] L. Grishchuk. General Relativity and Gravitation, 1989: Quantum cosmology and baby universes , 1990 .
[49] James B. Hartle,et al. Quantum Mechanics in the Light of Quantum Cosmology , 2018, 1803.04605.
[50] James B. Hartle,et al. The Quantum mechanics of cosmology , 1991, 1805.12246.
[51] Scully,et al. Spin coherence and Humpty-Dumpty. III. The effects of observation. , 1989, Physical review. A, General physics.
[52] Zurek,et al. Reduction of a wave packet in quantum Brownian motion. , 1989, Physical review. D, Particles and fields.
[53] R. Omnes. Interpretation of quantum mechanics , 1987 .
[54] A. Leggett,et al. Dynamics of the dissipative two-state system , 1987 .
[55] W. Zurek. Reduction of the Wavepacket: How Long Does it Take? , 2003, quant-ph/0302044.
[56] C. Tesche. Schrödinger's Cat: A Realization in Superconducting Devices , 1986 .
[57] D. Walls,et al. Quantum Optics IV , 1986 .
[58] Milburn,et al. Dissipative quantum and classical Liouville mechanics of the anharmonic oscillator. , 1986, Physical review letters.
[59] M. Scully,et al. Frontiers of nonequilibrium statistical physics , 1986 .
[60] E. Joos,et al. The emergence of classical properties through interaction with the environment , 1985 .
[61] Caldeira,et al. Influence of damping on quantum interference: An exactly soluble model. , 1985, Physical review. A, General physics.
[62] Robert B. Griffiths,et al. Consistent histories and the interpretation of quantum mechanics , 1984 .
[63] A. Leggett,et al. Quantum tunnelling in a dissipative system , 1983 .
[64] J. Wheeler,et al. Quantum theory and measurement , 1983 .
[65] A. Leggett,et al. Path integral approach to quantum Brownian motion , 1983 .
[66] G. Roger,et al. Experimental Test of Bell's Inequalities Using Time- Varying Analyzers , 1982 .
[67] W. Zurek. Environment-induced superselection rules , 1982 .
[68] H. Dekker. Classical and quantum mechanics of the damped harmonic oscillator , 1981 .
[69] W. Zurek. Pointer Basis of Quantum Apparatus: Into What Mixture Does the Wave Packet Collapse? , 1981 .
[70] P. Grangier,et al. Experimental Tests of Realistic Local Theories via Bell's Theorem , 1981 .
[71] K. Thorne,et al. Quantum Nondemolition Measurements , 1980, Science.
[72] V. Sandberg,et al. ON THE MEASUREMENT OF A WEAK CLASSICAL FORCE COUPLED TO A QUANTUM MECHANICAL OSCILLATOR. I. ISSUES OF PRINCIPLE , 1980 .
[73] Bryce S. DeWitt,et al. Quantum mechanics and reality , 1970 .
[74] H. Zeh. On the interpretation of measurement in quantum theory , 1970 .
[75] J. Bell. On the Einstein-Podolsky-Rosen paradox , 1964 .
[76] R. Feynman,et al. The Theory of a general quantum system interacting with a linear dissipative system , 1963 .
[77] E. Wigner. The Problem of Measurement , 1963 .
[78] Robert L. Weber,et al. The scientist speculates , 1962 .
[79] J. Wheeler. Assessment of Everett's 'Relative State' Formulation of Quantum Theory , 1957 .
[80] H. Everett. "Relative State" Formulation of Quantum Mechanics , 1957 .
[81] J. Neumann. Mathematical Foundations of Quantum Mechanics , 1955 .
[82] Albert Einstein,et al. Can Quantum-Mechanical Description of Physical Reality Be Considered Complete? , 1935 .
[83] E. Wigner. On the quantum correction for thermodynamic equilibrium , 1932 .
[84] J. VonNeumann. Mathematische Grundlagen der Quantenmechanik , 1932 .
[85] N. Bohr. The Quantum Postulate and the Recent Development of Atomic Theory , 1928, Nature.