We study the heat transfer between two nanoparticles held at different temperatures that interact through nonreciprocal forces, by combining molecular dynamics simulations with stochastic thermodynamics. Our simulations reveal that it is possible to construct nano refrigerators that generate a net heat transfer from a cold to a hot reservoir at the expense of power exerted by the nonreciprocal forces. Applying concepts from stochastic thermodynamics to a minimal underdamped Langevin model, we derive exact analytical expressions predictions for the fluctuations of work, heat, and efficiency, which reproduce thermodynamic quantities extracted from the molecular dynamics simulations. The theory only involves a single unknown parameter, namely ...
We apply the concepts of stochastic thermodynamics combined with transition-state theory to develop ...
Nanoscale fluid flow systems involve both microscopic and macroscopic parameters, which may couple w...
Nanothermodynamics extends standard thermodynamics to facilitate finite-size effects on the scale of...
Energy transfer in small nano-sized systems can be very different from that in their macroscopic cou...
We present a simple kinematic model of a non-equilibrium steady state device, which can operate eith...
The theory of Brownian motion is a cornerstone of modern physics. In this thesis, we introduce a non...
Device miniaturization allows for the improved speed and performance of modern-day computers compare...
We review a recent theoretical development based on non-equilibrium Green's function formalism to st...
In the present work, we study heat transport through a one dimensional time-dependent nanomechanical...
An inherent feature of small systems in contact with thermal reservoirs, be it a pollen grain in wat...
Nonequilibrium molecular dynamics (NEMD) has been extensively used to study thermal transport at var...
Poiseuille flow of a liquid in a nano-channel is simulated by molecular dynamics by embedding the fl...
Poiseuille flow of a liquid in a nano-channel is simulated by molecular dynamics by embedding the fl...
Nonequilibrium molecular dynamics (NEMD) has been extensively used to study thermal transport at var...
The main physical features and operating principles of isothermal nanomachines in the microworld, co...
We apply the concepts of stochastic thermodynamics combined with transition-state theory to develop ...
Nanoscale fluid flow systems involve both microscopic and macroscopic parameters, which may couple w...
Nanothermodynamics extends standard thermodynamics to facilitate finite-size effects on the scale of...
Energy transfer in small nano-sized systems can be very different from that in their macroscopic cou...
We present a simple kinematic model of a non-equilibrium steady state device, which can operate eith...
The theory of Brownian motion is a cornerstone of modern physics. In this thesis, we introduce a non...
Device miniaturization allows for the improved speed and performance of modern-day computers compare...
We review a recent theoretical development based on non-equilibrium Green's function formalism to st...
In the present work, we study heat transport through a one dimensional time-dependent nanomechanical...
An inherent feature of small systems in contact with thermal reservoirs, be it a pollen grain in wat...
Nonequilibrium molecular dynamics (NEMD) has been extensively used to study thermal transport at var...
Poiseuille flow of a liquid in a nano-channel is simulated by molecular dynamics by embedding the fl...
Poiseuille flow of a liquid in a nano-channel is simulated by molecular dynamics by embedding the fl...
Nonequilibrium molecular dynamics (NEMD) has been extensively used to study thermal transport at var...
The main physical features and operating principles of isothermal nanomachines in the microworld, co...
We apply the concepts of stochastic thermodynamics combined with transition-state theory to develop ...
Nanoscale fluid flow systems involve both microscopic and macroscopic parameters, which may couple w...
Nanothermodynamics extends standard thermodynamics to facilitate finite-size effects on the scale of...