date: 2014-08-04T06:19:29Z
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pdf:docinfo:title: Locality of temperature
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subject: Subject Areas: Condensed Matter Physics, Quantum Physics, Statistical Physics; PACS numbers:  05.30.-d, 05.50.+q, 03.67.-a, 
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dc:title: Locality of temperature
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cp:subject: Subject Areas: Condensed Matter Physics, Quantum Physics, Statistical Physics; PACS numbers:  05.30.-d, 05.50.+q, 03.67.-a, 
pdf:docinfo:subject: Subject Areas: Condensed Matter Physics, Quantum Physics, Statistical Physics; PACS numbers:  05.30.-d, 05.50.+q, 03.67.-a, 
pdf:docinfo:creator: M. Kliesch, C. Gogolin, M.J. Kastoryano, A. Riera, J. Eisert
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Author: M. Kliesch, C. Gogolin, M.J. Kastoryano, A. Riera, J. Eisert
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Keywords: Gibbs state, canonical state, canonical temperature, clustering of correlations, critical temperature, spin lattice system, spin lattice model, classical simulation, intensive temperature, perturbation of thermal states, stability of thermal states, thermalization, lattice system, local Hamiltonian, thermodynamic limit, matrix product operators, MPO, locality of temperature, intensive temperature, intensivity, intensiveness, quantum information, quantum thermodynamics, lattice animal, cluster expansion, cluster analysis 
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dc:creator: M. Kliesch, C. Gogolin, M.J. Kastoryano, A. Riera, J. Eisert
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title: Locality of temperature
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pdf:docinfo:keywords: Gibbs state, canonical state, canonical temperature, clustering of correlations, critical temperature, spin lattice system, spin lattice model, classical simulation, intensive temperature, perturbation of thermal states, stability of thermal states, thermalization, lattice system, local Hamiltonian, thermodynamic limit, matrix product operators, MPO, locality of temperature, intensive temperature, intensivity, intensiveness, quantum information, quantum thermodynamics, lattice animal, cluster expansion, cluster analysis 
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creator: M. Kliesch, C. Gogolin, M.J. Kastoryano, A. Riera, J. Eisert
dc:subject: Gibbs state, canonical state, canonical temperature, clustering of correlations, critical temperature, spin lattice system, spin lattice model, classical simulation, intensive temperature, perturbation of thermal states, stability of thermal states, thermalization, lattice system, local Hamiltonian, thermodynamic limit, matrix product operators, MPO, locality of temperature, intensive temperature, intensivity, intensiveness, quantum information, quantum thermodynamics, lattice animal, cluster expansion, cluster analysis 
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meta:keyword: Gibbs state, canonical state, canonical temperature, clustering of correlations, critical temperature, spin lattice system, spin lattice model, classical simulation, intensive temperature, perturbation of thermal states, stability of thermal states, thermalization, lattice system, local Hamiltonian, thermodynamic limit, matrix product operators, MPO, locality of temperature, intensive temperature, intensivity, intensiveness, quantum information, quantum thermodynamics, lattice animal, cluster expansion, cluster analysis 
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