Reimann P. Dynamical Typicality Approach to Eigenstate Thermalization. PHYSICAL REVIEW LETTERS. 2018;120(23): 6.We consider the set of all initial states within a microcanonical energy shell of an isolated many-body quantum system, which exhibit an arbitrary but fixed nonequilibrium expectation value for some given observable A. On the condition that this set is not too small, it is shown by means of a dynamical typicality approach that most such initial states exhibit thermalization if and only if A satisfies the so-called weak eigenstate thermalization hypothesis (wETH). Here, thermalization means that the expectation value of A spends most of its time close to the microcanonical value after initial transients have died out. The wETH mean...
Motivated by the qualitative picture of canonical typicality, we propose a refined formulation of th...
Reimann P. Eigenstate thermalization: Deutsch’s approach and beyond. New Journal of Physics. 2015;17...
In this work, we show how Gibbs or thermal states appear dynamically in closed quantum many-body sys...
Dabelow L, Vorndamme P, Reimann P. Thermalization of locally perturbed many-body quantum systems. Ph...
We investigate dynamical equilibration of expectation values in closed quantum systems for realistic...
A very fundamental problem in quantum statistical mechanics involves whether—and how—an isolated qua...
The eigenstate thermalization hypothesis (ETH) explains why chaotic quantum many-body systems therma...
In an isolated quantum many-body system undergoing unitary evolution, we study the thermalization of...
Understanding the evolution towards thermal equilibrium of an iso-lated quantum system is at the fou...
Under the eigenstate thermalization hypothesis (ETH), quantum-quenched systems equilibrate towards c...
The emergence of statistical mechanics for isolated classical systems comes about through chaotic dy...
Under the eigenstate thermalization hypothesis (ETH), quantum-quenched systems equilibrate towards c...
We ask whether the eigenstate thermalization hypothesis (ETH) is valid in a strong sense: in the lim...
The emergence of statistical mechanics for isolated classical systems comes about through chaotic dy...
Reimann P. Generalization of von Neumann's Approach to Thermalization. Physical Review Letters. 2015...
Motivated by the qualitative picture of canonical typicality, we propose a refined formulation of th...
Reimann P. Eigenstate thermalization: Deutsch’s approach and beyond. New Journal of Physics. 2015;17...
In this work, we show how Gibbs or thermal states appear dynamically in closed quantum many-body sys...
Dabelow L, Vorndamme P, Reimann P. Thermalization of locally perturbed many-body quantum systems. Ph...
We investigate dynamical equilibration of expectation values in closed quantum systems for realistic...
A very fundamental problem in quantum statistical mechanics involves whether—and how—an isolated qua...
The eigenstate thermalization hypothesis (ETH) explains why chaotic quantum many-body systems therma...
In an isolated quantum many-body system undergoing unitary evolution, we study the thermalization of...
Understanding the evolution towards thermal equilibrium of an iso-lated quantum system is at the fou...
Under the eigenstate thermalization hypothesis (ETH), quantum-quenched systems equilibrate towards c...
The emergence of statistical mechanics for isolated classical systems comes about through chaotic dy...
Under the eigenstate thermalization hypothesis (ETH), quantum-quenched systems equilibrate towards c...
We ask whether the eigenstate thermalization hypothesis (ETH) is valid in a strong sense: in the lim...
The emergence of statistical mechanics for isolated classical systems comes about through chaotic dy...
Reimann P. Generalization of von Neumann's Approach to Thermalization. Physical Review Letters. 2015...
Motivated by the qualitative picture of canonical typicality, we propose a refined formulation of th...
Reimann P. Eigenstate thermalization: Deutsch’s approach and beyond. New Journal of Physics. 2015;17...
In this work, we show how Gibbs or thermal states appear dynamically in closed quantum many-body sys...