Add to ORKGWe present a methodology to simulate the quantum thermodynamics of thermal machines which are built from an interacting working medium in contact with fermionic reservoirs at a fixed temperature and chemical potential. Our method works at a finite temperature, beyond linear response and weak system-reservoir coupling, and allows for nonquadratic interactions in the working medium. The method uses mesoscopic reservoirs, continuously damped toward thermal equilibrium, in order to represent continuum baths and a novel tensor-network algorithm to simulate the steady-state thermodynamics. Using the example of a quantum-dot heat engine, we demonstrate that our technique replicates the well-known Landauer-B?ttiker theory for efficiency and power. ...
The performance characteristics of a heat rectifier and a heat pump are studied in a non-Markovian f...
Tensor network algorithms have emerged as a new approach in simulating strongly correlated quantum m...
We present a compendium of numerical simulation techniques, based on tensor network methods, aiming...
We present a holographic quantum simulation algorithm to approximately prepare thermal states of $d$...
We speed up thermal simulations of quantum many-body systems in both one- (1D) and two-dimensional (...
International audienceWe propose a scheme for a quantum thermal machine made by atoms interacting wi...
Comprendre la décohérence et la dissipation dans les systèmes quantiques est essentiel pour exploite...
We present a technique to compute the microcanonical thermodynamical properties of a many-body quant...
The nonequilibrium effects of dissipation and drive play a key role in an immense variety of nanosca...
We begin with an introduction to some of the important numerical tools in the field of condensed mat...
We introduce a general numerical method to compute dynamics and multi-time correlations of chains of...
We investigate the efficiency of a quantum Carnot engine based on open quantum dynamics theory. The ...
The concept of thermal machines has evolved from the canonical steam engine to the recently proposed...
Understanding the thermodynamics of driven quantum systems strongly coupled to thermal baths is a ce...
Device miniaturization allows for the improved speed and performance of modern-day computers compare...
The performance characteristics of a heat rectifier and a heat pump are studied in a non-Markovian f...
Tensor network algorithms have emerged as a new approach in simulating strongly correlated quantum m...
We present a compendium of numerical simulation techniques, based on tensor network methods, aiming...
We present a holographic quantum simulation algorithm to approximately prepare thermal states of $d$...
We speed up thermal simulations of quantum many-body systems in both one- (1D) and two-dimensional (...
International audienceWe propose a scheme for a quantum thermal machine made by atoms interacting wi...
Comprendre la décohérence et la dissipation dans les systèmes quantiques est essentiel pour exploite...
We present a technique to compute the microcanonical thermodynamical properties of a many-body quant...
The nonequilibrium effects of dissipation and drive play a key role in an immense variety of nanosca...
We begin with an introduction to some of the important numerical tools in the field of condensed mat...
We introduce a general numerical method to compute dynamics and multi-time correlations of chains of...
We investigate the efficiency of a quantum Carnot engine based on open quantum dynamics theory. The ...
The concept of thermal machines has evolved from the canonical steam engine to the recently proposed...
Understanding the thermodynamics of driven quantum systems strongly coupled to thermal baths is a ce...
Device miniaturization allows for the improved speed and performance of modern-day computers compare...
The performance characteristics of a heat rectifier and a heat pump are studied in a non-Markovian f...
Tensor network algorithms have emerged as a new approach in simulating strongly correlated quantum m...
We present a compendium of numerical simulation techniques, based on tensor network methods, aiming...