A stochastic thermodynamics of Brownian motion is set up in which state functions are expressed in terms of state variables through the same relations as in classical irreversible thermodynamics, with the difference that the state variables are now random fields accounting for the effect of fluctuations. Explicit expressions for the stochastic analog of entropy production and related quantities are derived for a dilute solution of Brownian particles in a fluid of light particles. Their statistical properties are analyzed and, in the light of the insights afforded, the thermodynamics of a single Brownian particle is revisited and the status of the second law of thermodynamics is discussed.SCOPUS: ar.jinfo:eu-repo/semantics/publishe
We consider the problem of describing the dynamics of a test particle moving in a thermal bath using...
In the present thesis, a thermodynamic theory is developed for driven soft matter sys-tems like poly...
Stochastic processes are present in virtually any field of science. Actually, in general determinist...
VK: Orponen, P.; COINWe compute the entropy production engendered in the environment from a single B...
Stochastic thermodynamics is an extension of classical nonequilibrium thermodynamics to small system...
This paper is concerned with the stochastic thermodynamics of non-equilibrium Gaussian processes tha...
Stochastic thermodynamics provides a framework for describing small systems like colloids or biomole...
In this paper, motivated by a general interest in the stochastic thermodynamics of small systems, we...
Stochastic thermodynamics is a recently introduced approach to deals with small systems in contact w...
Underdamped stochastic thermodynamics provides a handy tool to study a large class of stochastic pr...
Examples of self-propulsion in strongly fluctuating environments are abundant in nature, e.g., molec...
Diffusion processes play an important role in describing systems in many fields of science, as in ph...
A stochastic approach to Brownian motion of a quantum system is presented. The theory is based on ph...
Small systems in a thermodynamic medium — like colloids in a suspension or the molec-ular machinery ...
Small systems in a thermodynamic medium—like colloids in a suspension or the molecular machinery in ...
We consider the problem of describing the dynamics of a test particle moving in a thermal bath using...
In the present thesis, a thermodynamic theory is developed for driven soft matter sys-tems like poly...
Stochastic processes are present in virtually any field of science. Actually, in general determinist...
VK: Orponen, P.; COINWe compute the entropy production engendered in the environment from a single B...
Stochastic thermodynamics is an extension of classical nonequilibrium thermodynamics to small system...
This paper is concerned with the stochastic thermodynamics of non-equilibrium Gaussian processes tha...
Stochastic thermodynamics provides a framework for describing small systems like colloids or biomole...
In this paper, motivated by a general interest in the stochastic thermodynamics of small systems, we...
Stochastic thermodynamics is a recently introduced approach to deals with small systems in contact w...
Underdamped stochastic thermodynamics provides a handy tool to study a large class of stochastic pr...
Examples of self-propulsion in strongly fluctuating environments are abundant in nature, e.g., molec...
Diffusion processes play an important role in describing systems in many fields of science, as in ph...
A stochastic approach to Brownian motion of a quantum system is presented. The theory is based on ph...
Small systems in a thermodynamic medium — like colloids in a suspension or the molec-ular machinery ...
Small systems in a thermodynamic medium—like colloids in a suspension or the molecular machinery in ...
We consider the problem of describing the dynamics of a test particle moving in a thermal bath using...
In the present thesis, a thermodynamic theory is developed for driven soft matter sys-tems like poly...
Stochastic processes are present in virtually any field of science. Actually, in general determinist...