Add to ORKGMany-body-localized (MBL) systems do not thermalize under their intrinsic dynamics. The athermality of MBL, we propose, can be harnessed for thermodynamic tasks. We illustrate this ability by formulating an Otto engine cycle for a quantum many-body system. The system is ramped between a strongly localized MBL regime and a thermal (or weakly localized) regime. The difference between the energy-level correlations of MBL systems and of thermal systems enables mesoscale engines to run in parallel in the thermodynamic limit, enhances the engine's reliability, and suppresses worst-case trials. We estimate analytically and calculate numerically the engine's efficiency and per-cycle power. The efficiency mirrors the efficiency of the conventional t...
Many-body localization (MBL) is a phase of matter that is characterized by the absence of thermaliza...
The collective and quantum behavior of many-body systems may be harnessed to achieve fast charging o...
The advent of heat engines had a significant impact on society. By transforming heat into useful wo...
This thesis describes two studies of the dynamics of many-body quantum systems with extensive numeri...
This thesis describes two studies of the dynamics of many-body quantum systems with extensive numeri...
Thermodynamic geometry provides a physically transparent framework to describe thermodynamic process...
The performance of quantum heat engines is generally based on the analysis of a single cycle. We cha...
We show that a quantum Otto cycle in which the medium, an interacting ultracold gas, is driven betwe...
We consider a generic four-stroke quantum Otto engine consisting of two unitary and two thermalizati...
We consider a generic four-stroke quantum Otto engine consisting of two unitary and two thermalizati...
Thermalizing quantum systems are conventionallydescribed by statistical mechanics at equilib-rium. H...
Recent predictions for quantum-mechanical enhancements in the operation of small heat engines have r...
Quantization of energy is a quintessential characteristic of quantum systems. Here we analyze its ef...
Many-body localized (MBL) systems are characterized by the absence of transport and thermalization a...
Many-body localization (MBL) is a phase of matter that is characterized by the absence of thermaliza...
Many-body localization (MBL) is a phase of matter that is characterized by the absence of thermaliza...
The collective and quantum behavior of many-body systems may be harnessed to achieve fast charging o...
The advent of heat engines had a significant impact on society. By transforming heat into useful wo...
This thesis describes two studies of the dynamics of many-body quantum systems with extensive numeri...
This thesis describes two studies of the dynamics of many-body quantum systems with extensive numeri...
Thermodynamic geometry provides a physically transparent framework to describe thermodynamic process...
The performance of quantum heat engines is generally based on the analysis of a single cycle. We cha...
We show that a quantum Otto cycle in which the medium, an interacting ultracold gas, is driven betwe...
We consider a generic four-stroke quantum Otto engine consisting of two unitary and two thermalizati...
We consider a generic four-stroke quantum Otto engine consisting of two unitary and two thermalizati...
Thermalizing quantum systems are conventionallydescribed by statistical mechanics at equilib-rium. H...
Recent predictions for quantum-mechanical enhancements in the operation of small heat engines have r...
Quantization of energy is a quintessential characteristic of quantum systems. Here we analyze its ef...
Many-body localized (MBL) systems are characterized by the absence of transport and thermalization a...
Many-body localization (MBL) is a phase of matter that is characterized by the absence of thermaliza...
Many-body localization (MBL) is a phase of matter that is characterized by the absence of thermaliza...
The collective and quantum behavior of many-body systems may be harnessed to achieve fast charging o...
The advent of heat engines had a significant impact on society. By transforming heat into useful wo...