We study the slowly varying, non-autonomous quantum dynamics of a translation-invariant spin or fermion system on the lattice Zd. This system is assumed to be initially in thermal equilibrium, and we consider realizations of quasi-static processes in the adiabatic limit. By combining the Gibbs variational principle with the notion of quantum weak Gibbs states introduced in Jakšić et al. (Approach to equilibrium in translation-invariant quantum systems: some structural results, in the present issue of Ann. H. Poincaré, 2023), we establish a number of general structural results regarding such realizations. In particular, we show that such a quasi-static process is incompatible with the property of approach to equilibrium studied in this previous work.
A Note on Adiabatic Time Evolution and Quasi-Static Processes in Translation-Invariant Quantum Systems
Jaksic, Vojkan;
2024-01-01
Abstract
We study the slowly varying, non-autonomous quantum dynamics of a translation-invariant spin or fermion system on the lattice Zd. This system is assumed to be initially in thermal equilibrium, and we consider realizations of quasi-static processes in the adiabatic limit. By combining the Gibbs variational principle with the notion of quantum weak Gibbs states introduced in Jakšić et al. (Approach to equilibrium in translation-invariant quantum systems: some structural results, in the present issue of Ann. H. Poincaré, 2023), we establish a number of general structural results regarding such realizations. In particular, we show that such a quasi-static process is incompatible with the property of approach to equilibrium studied in this previous work.| File | Dimensione | Formato | |
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