The development of sophisticated experimental means to control nanoscale systems has motivated efforts to design driving protocols that minimize the energy dissipated to the environment. Computational models are a crucial tool in this practical challenge. We describe a general method for sampling an ensemble of finite-time, nonequilibrium protocols biased toward a low average dissipation. We show that this scheme can be carried out very efficiently in several limiting cases. As an application, we sample the ensemble of low-dissipation protocols that invert the magnetization of a 2D Ising model and explore how the diversity of the protocols varies in response to constraints on the average dissipation. In this example, we find that there is a...
Protocols for non-adiabatic quantum control often require the use of classical time varying fields. ...
Thermodynamic equilibrium is a strong constraint on the statistics of physical systems that has led ...
Rare event simulation and estimation for systems in equilibrium are among the most challenging topic...
The development of sophisticated experimental means to control nanoscale systems has motivated effor...
Controlling the evolution of nonequilibrium systems to minimize dissipated heat or work is a key goa...
Quantifying energy flows at nanometer scales promises to guide future research in a variety of disci...
We present a stylized model of controlled equilibration of a small system in a fluctuating environme...
We characterize finite-time thermodynamic processes of multidimensional quadratic overdamped systems...
We present a stylized model of controlled equilibration of a small system in a fluctuating environme...
This thesis compiles the publications I coauthored during my doctoral studies at University of Leipz...
Living systems are distinguished by their self-organization. Given the entropic driving force embodi...
In this Letter, we explore the use of thermodynamic length to improve the performance of experimenta...
In this thesis, the effect of dissipation is investigated in driven models of interest for quantum a...
Nonequilibrium driving can independently tune the structure and dynamics of molecular and colloidal ...
The optimal protocols for the irreversible work achieve their maximum usefulness if their work fluct...
Protocols for non-adiabatic quantum control often require the use of classical time varying fields. ...
Thermodynamic equilibrium is a strong constraint on the statistics of physical systems that has led ...
Rare event simulation and estimation for systems in equilibrium are among the most challenging topic...
The development of sophisticated experimental means to control nanoscale systems has motivated effor...
Controlling the evolution of nonequilibrium systems to minimize dissipated heat or work is a key goa...
Quantifying energy flows at nanometer scales promises to guide future research in a variety of disci...
We present a stylized model of controlled equilibration of a small system in a fluctuating environme...
We characterize finite-time thermodynamic processes of multidimensional quadratic overdamped systems...
We present a stylized model of controlled equilibration of a small system in a fluctuating environme...
This thesis compiles the publications I coauthored during my doctoral studies at University of Leipz...
Living systems are distinguished by their self-organization. Given the entropic driving force embodi...
In this Letter, we explore the use of thermodynamic length to improve the performance of experimenta...
In this thesis, the effect of dissipation is investigated in driven models of interest for quantum a...
Nonequilibrium driving can independently tune the structure and dynamics of molecular and colloidal ...
The optimal protocols for the irreversible work achieve their maximum usefulness if their work fluct...
Protocols for non-adiabatic quantum control often require the use of classical time varying fields. ...
Thermodynamic equilibrium is a strong constraint on the statistics of physical systems that has led ...
Rare event simulation and estimation for systems in equilibrium are among the most challenging topic...