Reduction of a wave packet in quantum Brownian motion
The effect of the environment on a quantum system is studied on an exactly solvable model: a harmonic oscillator interacting with a one-dimensional massless scalar field. We show that in an open quantum system, dissipation can cause decorrelation on a time scale significantly shorter than the relaxa...
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| Veröffentlicht in: | Physical review. D, Particles and fields Particles and fields, 1989-08, Vol.40 (4), p.1071-1094 |
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| container_title | Physical review. D, Particles and fields |
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| creator | UNRUH, W. G ZUREK, W. H |
| description | The effect of the environment on a quantum system is studied on an exactly solvable model: a harmonic oscillator interacting with a one-dimensional massless scalar field. We show that in an open quantum system, dissipation can cause decorrelation on a time scale significantly shorter than the relaxation time which characterizes the approach of the system to thermodynamic equilibrium. In particular, we demonstrate that the density matrix decays rapidly toward a mixture of approximate eigenstates'' of the pointer observable,'' which commutes with the system-environment interaction Hamiltonian. This observable can be regarded as continuously, if inaccurately, monitored by the scalar field environment. Both because in a harmonic oscillator the state of the system rotates in the phase space and because the effective environment measurement'' is weak, the system, on the short collision'' time scale (1/{Gamma}), maintains a coherence in this pointer observable on time scales of order ({gamma}/{Omega}ln({Gamma}/{Omega})){sup 1/2} and on longer time scales settles into a mixture of coherent states with a dispersion approximately consistent with the vacuum state. The master equation satisfied by the exact solution differs from the other master equations derived both for the high-temperature limit and for {ital T}=0. We discuss these differences and study the transition region between the high- and low-temperature regimes. We also consider the behavior of the system in the short-time transient'' regime. For {ital T}=0, we find that, in the long-time limit, the system behaves as if it were subject to 1/{ital f} noise.'' The generality of our model is considered and its predictions are compared with previous treatments of related problems. Some of the possible applications of the results to experimentally realizable situations are outlined. |
| doi_str_mv | 10.1103/PhysRevD.40.1071 |
| format | Article |
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G ; ZUREK, W. H</creator><creatorcontrib>UNRUH, W. G ; ZUREK, W. H</creatorcontrib><description>The effect of the environment on a quantum system is studied on an exactly solvable model: a harmonic oscillator interacting with a one-dimensional massless scalar field. We show that in an open quantum system, dissipation can cause decorrelation on a time scale significantly shorter than the relaxation time which characterizes the approach of the system to thermodynamic equilibrium. In particular, we demonstrate that the density matrix decays rapidly toward a mixture of approximate eigenstates'' of the pointer observable,'' which commutes with the system-environment interaction Hamiltonian. This observable can be regarded as continuously, if inaccurately, monitored by the scalar field environment. Both because in a harmonic oscillator the state of the system rotates in the phase space and because the effective environment measurement'' is weak, the system, on the short collision'' time scale (1/{Gamma}), maintains a coherence in this pointer observable on time scales of order ({gamma}/{Omega}ln({Gamma}/{Omega})){sup 1/2} and on longer time scales settles into a mixture of coherent states with a dispersion approximately consistent with the vacuum state. The master equation satisfied by the exact solution differs from the other master equations derived both for the high-temperature limit and for {ital T}=0. We discuss these differences and study the transition region between the high- and low-temperature regimes. We also consider the behavior of the system in the short-time transient'' regime. For {ital T}=0, we find that, in the long-time limit, the system behaves as if it were subject to 1/{ital f} noise.'' The generality of our model is considered and its predictions are compared with previous treatments of related problems. Some of the possible applications of the results to experimentally realizable situations are outlined.</description><identifier>ISSN: 0556-2821</identifier><identifier>EISSN: 1089-4918</identifier><identifier>DOI: 10.1103/PhysRevD.40.1071</identifier><identifier>PMID: 10011915</identifier><identifier>CODEN: PRVDAQ</identifier><language>eng</language><publisher>Ridge, NY: American Physical Society</publisher><subject>657002 - Theoretical & Mathematical Physics- Classical & Quantum Mechanics ; BROWNIAN MOVEMENT ; CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS ; Classical and quantum physics: mechanics and fields ; CLASSICAL MECHANICS ; COSMOLOGICAL MODELS ; EIGENSTATES ; ELECTRONIC EQUIPMENT ; Exact sciences and technology ; FUNCTIONS ; GREEN FUNCTION ; HAMILTONIANS ; HARMONIC OSCILLATORS ; HEISENBERG PICTURE ; MATHEMATICAL MODELS ; MATHEMATICAL OPERATORS ; MATHEMATICAL SPACE ; MECHANICS ; OSCILLATORS ; PARTICLE MODELS ; PHASE SPACE ; Physics ; QUANTUM MECHANICS ; QUANTUM OPERATORS ; SCALAR FIELDS ; SPACE ; STATISTICAL MODELS ; THERMODYNAMIC MODEL ; UNIVERSE ; VACUUM STATES ; WAVE PACKETS</subject><ispartof>Physical review. 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G</creatorcontrib><creatorcontrib>ZUREK, W. H</creatorcontrib><title>Reduction of a wave packet in quantum Brownian motion</title><title>Physical review. D, Particles and fields</title><addtitle>Phys Rev D Part Fields</addtitle><description>The effect of the environment on a quantum system is studied on an exactly solvable model: a harmonic oscillator interacting with a one-dimensional massless scalar field. We show that in an open quantum system, dissipation can cause decorrelation on a time scale significantly shorter than the relaxation time which characterizes the approach of the system to thermodynamic equilibrium. In particular, we demonstrate that the density matrix decays rapidly toward a mixture of approximate eigenstates'' of the pointer observable,'' which commutes with the system-environment interaction Hamiltonian. This observable can be regarded as continuously, if inaccurately, monitored by the scalar field environment. Both because in a harmonic oscillator the state of the system rotates in the phase space and because the effective environment measurement'' is weak, the system, on the short collision'' time scale (1/{Gamma}), maintains a coherence in this pointer observable on time scales of order ({gamma}/{Omega}ln({Gamma}/{Omega})){sup 1/2} and on longer time scales settles into a mixture of coherent states with a dispersion approximately consistent with the vacuum state. The master equation satisfied by the exact solution differs from the other master equations derived both for the high-temperature limit and for {ital T}=0. We discuss these differences and study the transition region between the high- and low-temperature regimes. We also consider the behavior of the system in the short-time transient'' regime. For {ital T}=0, we find that, in the long-time limit, the system behaves as if it were subject to 1/{ital f} noise.'' The generality of our model is considered and its predictions are compared with previous treatments of related problems. 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D, Particles and fields</jtitle><addtitle>Phys Rev D Part Fields</addtitle><date>1989-08-15</date><risdate>1989</risdate><volume>40</volume><issue>4</issue><spage>1071</spage><epage>1094</epage><pages>1071-1094</pages><issn>0556-2821</issn><eissn>1089-4918</eissn><coden>PRVDAQ</coden><abstract>The effect of the environment on a quantum system is studied on an exactly solvable model: a harmonic oscillator interacting with a one-dimensional massless scalar field. We show that in an open quantum system, dissipation can cause decorrelation on a time scale significantly shorter than the relaxation time which characterizes the approach of the system to thermodynamic equilibrium. In particular, we demonstrate that the density matrix decays rapidly toward a mixture of approximate eigenstates'' of the pointer observable,'' which commutes with the system-environment interaction Hamiltonian. This observable can be regarded as continuously, if inaccurately, monitored by the scalar field environment. Both because in a harmonic oscillator the state of the system rotates in the phase space and because the effective environment measurement'' is weak, the system, on the short collision'' time scale (1/{Gamma}), maintains a coherence in this pointer observable on time scales of order ({gamma}/{Omega}ln({Gamma}/{Omega})){sup 1/2} and on longer time scales settles into a mixture of coherent states with a dispersion approximately consistent with the vacuum state. The master equation satisfied by the exact solution differs from the other master equations derived both for the high-temperature limit and for {ital T}=0. We discuss these differences and study the transition region between the high- and low-temperature regimes. We also consider the behavior of the system in the short-time transient'' regime. For {ital T}=0, we find that, in the long-time limit, the system behaves as if it were subject to 1/{ital f} noise.'' The generality of our model is considered and its predictions are compared with previous treatments of related problems. Some of the possible applications of the results to experimentally realizable situations are outlined.</abstract><cop>Ridge, NY</cop><pub>American Physical Society</pub><pmid>10011915</pmid><doi>10.1103/PhysRevD.40.1071</doi><tpages>24</tpages></addata></record> |
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| ispartof | Physical review. D, Particles and fields, 1989-08, Vol.40 (4), p.1071-1094 |
| issn | 0556-2821 1089-4918 |
| language | eng |
| recordid | cdi_osti_scitechconnect_5537905 |
| source | American Physical Society Journals |
| subjects | 657002 - Theoretical & Mathematical Physics- Classical & Quantum Mechanics BROWNIAN MOVEMENT CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS Classical and quantum physics: mechanics and fields CLASSICAL MECHANICS COSMOLOGICAL MODELS EIGENSTATES ELECTRONIC EQUIPMENT Exact sciences and technology FUNCTIONS GREEN FUNCTION HAMILTONIANS HARMONIC OSCILLATORS HEISENBERG PICTURE MATHEMATICAL MODELS MATHEMATICAL OPERATORS MATHEMATICAL SPACE MECHANICS OSCILLATORS PARTICLE MODELS PHASE SPACE Physics QUANTUM MECHANICS QUANTUM OPERATORS SCALAR FIELDS SPACE STATISTICAL MODELS THERMODYNAMIC MODEL UNIVERSE VACUUM STATES WAVE PACKETS |
| title | Reduction of a wave packet in quantum Brownian motion |
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