Add to ORKGWe study a quantum harmonic oscillator undergoing thermalization. To describe the thermalization process, we generalize the Ermakov-Lewis-Riesenfeld (ELR) invariant method for the oscillator. After imposing appropriate conditions on the thermalization process, we introduce an ansatz equation that describes the time evolution effectively. We write down the first law for thermalization in the same form as that for ordinary thermodynamics. Here, the thermalization effect appears through a change of the ELR frequency. Finally, we obtain the oscillator's energy undergoing thermalization as a function of entropy and its time derivative.Comment: Major revision require
We develop a general theory describing the thermodynamical behavior of open quantum systems coupled ...
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We develop a general theory describing the thermodynamical behavior of open quantum systems coupled ...
Entropy production is the key to the second law of thermodynamics, and it is well defined by conside...
We investigate the equilibration and thermalization properties of quantum systems interacting with a...
We investigate the longstanding problem of thermalization of quantum systems coupled to an environme...
In this work, we show how Gibbs or thermal states appear dynamically in closed quantum many-body sys...
The issue of thermalization in open quantum systems is explored from the perspective of fermion mode...
We introduce the quantitative measures characterizing the rates of decoherence and thermalization of...
The free energy of a quantum oscillator in an arbitrary heat bath at temperature T is given by a re...
A very fundamental problem in quantum statistical mechanics involves whether—and how—an isolated qua...
Chaos and ergodicity are the cornerstones of statistical physics and thermodynamics. While classical...
Under the eigenstate thermalization hypothesis (ETH), quantum-quenched systems equilibrate towards c...
Under the eigenstate thermalization hypothesis (ETH), quantum-quenched systems equilibrate towards c...
Using tools developed within the context of quantum information theory, we study the relaxation of a...
An exact stochastic model for the thermalization of quantum states is proposed. The model has variou...
Controlling the temperature of nano-scale quantum systems is becoming increasingly important in the ...
We develop a general theory describing the thermodynamical behavior of open quantum systems coupled ...
Entropy production is the key to the second law of thermodynamics, and it is well defined by conside...
We investigate the equilibration and thermalization properties of quantum systems interacting with a...