Zeno dynamics in quantum statistical mechanics
Copyright policy )Zeno dynamics in quantum statistical mechanics
We study the quantum Zeno effect in quantum statistical mechanics within the operator algebraic framework. We formulate a condition for the appearance of the effect in W*-dynamical systems, in terms of the short-time behaviour of the dynamics. Examples of quantum spin systems show that this condition can be effectively applied to quantum statistical mechanical models. Further, we derive an explicit form of the Zeno generator, and use it to construct Gibbs equilibrium states for the Zeno dynamics. As a concrete example, we consider the X-Y model, for which we show that a frequent measurement at a microscopic level, e.g. a single lattice site, can produce a macroscopic effect in changing the global equilibrium.
15 pages, AMSLaTeX; typos corrected, references updated and added, acknowledgements added, style polished; revised version contains corrections from published corrigenda
- Fraunhofer Society Germany
- Goethe University Frankfurt Germany
- Johann Wolfgang Goethe-Universitaet Germany
ddc:510, Quantum Physics, 82C10, 82B10, Mathematics - Operator Algebras, 81P15, FOS: Physical sciences, Quantum measurement theory, state operations, state preparations, Mathematical Physics (math-ph), 510, 82B10; 82C10; 81P15, Quantum dynamics and nonequilibrium statistical mechanics (general), FOS: Mathematics, Quantum equilibrium statistical mechanics (general), 190, Operator Algebras (math.OA), Quantum Physics (quant-ph), Mathematical Physics, msc: msc:82C10, msc: msc:82B10, msc: msc:81R15, ddc: ddc:510
ddc:510, Quantum Physics, 82C10, 82B10, Mathematics - Operator Algebras, 81P15, FOS: Physical sciences, Quantum measurement theory, state operations, state preparations, Mathematical Physics (math-ph), 510, 82B10; 82C10; 81P15, Quantum dynamics and nonequilibrium statistical mechanics (general), FOS: Mathematics, Quantum equilibrium statistical mechanics (general), 190, Operator Algebras (math.OA), Quantum Physics (quant-ph), Mathematical Physics, msc: msc:82C10, msc: msc:82B10, msc: msc:81R15, ddc: ddc:510
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