Behavior of a quantum particle in contact with a classical heat bath

P. Nielaba; J. L. Lebowitz; H. Spohn; J. L. Vallés

doi:10.1007/BF01041606

Behavior of a quantum particle in contact with a classical heat bath

P. Nielaba, J. L. Lebowitz, H. Spohn, J. L. Vallés

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10 Scopus citations

Abstract

We investigate the behavior of a two-level quantum system in contact with a classical heat bath, e.g., a solute particle with internal degrees of freedom immersed in a solvent of massive particles. Using a combination of analytical and numerical methods, we obtain precise information about localization, time-displaced correlation functions, and the frequency-dependent susceptibility of such solute particles. We find that these quantities can have a strong dependence on the density of the solvent fluid, with the maximum changes from the behavior of the corresponding isolated quantum system occurring in many cases at very low densities. We compare the exact results with those obtained by path integral Monte Carlo. There is good agreement with the imaginary time correlations, but analytic continuation to real time proves elusive: even with the best numerical data on the former, we can only get very gross features of the latter.

Original language	English
Pages (from-to)	745-767
Number of pages	23
Journal	Journal of Statistical Physics
Volume	55
Issue number	3-4
DOIs	https://doi.org/10.1007/BF01041606
State	Published - May 1989
Externally published	Yes

Keywords

Quantum particle
analytic continuation
classical bath
frequency shift
path integral Monte Carlo
real-time correlation functions
two-level approximation

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10.1007/BF01041606

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title = "Behavior of a quantum particle in contact with a classical heat bath",

abstract = "We investigate the behavior of a two-level quantum system in contact with a classical heat bath, e.g., a solute particle with internal degrees of freedom immersed in a solvent of massive particles. Using a combination of analytical and numerical methods, we obtain precise information about localization, time-displaced correlation functions, and the frequency-dependent susceptibility of such solute particles. We find that these quantities can have a strong dependence on the density of the solvent fluid, with the maximum changes from the behavior of the corresponding isolated quantum system occurring in many cases at very low densities. We compare the exact results with those obtained by path integral Monte Carlo. There is good agreement with the imaginary time correlations, but analytic continuation to real time proves elusive: even with the best numerical data on the former, we can only get very gross features of the latter.",

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T1 - Behavior of a quantum particle in contact with a classical heat bath

AU - Nielaba, P.

AU - Lebowitz, J. L.

AU - Spohn, H.

AU - Vallés, J. L.

PY - 1989/5

Y1 - 1989/5

N2 - We investigate the behavior of a two-level quantum system in contact with a classical heat bath, e.g., a solute particle with internal degrees of freedom immersed in a solvent of massive particles. Using a combination of analytical and numerical methods, we obtain precise information about localization, time-displaced correlation functions, and the frequency-dependent susceptibility of such solute particles. We find that these quantities can have a strong dependence on the density of the solvent fluid, with the maximum changes from the behavior of the corresponding isolated quantum system occurring in many cases at very low densities. We compare the exact results with those obtained by path integral Monte Carlo. There is good agreement with the imaginary time correlations, but analytic continuation to real time proves elusive: even with the best numerical data on the former, we can only get very gross features of the latter.

AB - We investigate the behavior of a two-level quantum system in contact with a classical heat bath, e.g., a solute particle with internal degrees of freedom immersed in a solvent of massive particles. Using a combination of analytical and numerical methods, we obtain precise information about localization, time-displaced correlation functions, and the frequency-dependent susceptibility of such solute particles. We find that these quantities can have a strong dependence on the density of the solvent fluid, with the maximum changes from the behavior of the corresponding isolated quantum system occurring in many cases at very low densities. We compare the exact results with those obtained by path integral Monte Carlo. There is good agreement with the imaginary time correlations, but analytic continuation to real time proves elusive: even with the best numerical data on the former, we can only get very gross features of the latter.

KW - Quantum particle

KW - analytic continuation

KW - classical bath

KW - frequency shift

KW - path integral Monte Carlo

KW - real-time correlation functions

KW - two-level approximation

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SP - 745

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JO - Journal of Statistical Physics

JF - Journal of Statistical Physics

IS - 3-4

ER -

Behavior of a quantum particle in contact with a classical heat bath

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Keywords

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