Stochastic Energetics by now commonly designates the emerging field that bridges the gap between stochastic dynamical processes and thermodynamics.

Triggered by the vast improvements in spatio-temporal resolution in nanotechnology, stochastic energetics develops a framework for quantifying individual realizations of a stochastic process on the mesoscopic scale of thermal fluctuations.

This is needed to answer such novel questions as:

Can one cool a drop of water by agitating an immersed nano-particle?

How does heat flow if a Brownian particle pulls a polymer...

Stochastic Energetics by now commonly designates the emerging field that bridges the gap between stochastic dynamical processes and thermodynamics.

Triggered by the vast improvements in spatio-temporal resolution in nanotechnology, stochastic energetics develops a framework for quantifying individual realizations of a stochastic process on the mesoscopic scale of thermal fluctuations.

This is needed to answer such novel questions as:

Can one cool a drop of water by agitating an immersed nano-particle?

How does heat flow if a Brownian particle pulls a polymer...