Full article: Martingales for physicists: a treatise on stochastic thermodynamics and beyond
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Entropy production is the hallmark of nonequilibrium physics, quantifying irreversibility,
dissipation, and the efficiency of energy transduction processes. Despite many efforts, its …

In active matter, particles typically experience mediated interactions, which are not
constrained by Newton's third law and are therefore generically non-reciprocal. Non …

Active systems are characterized by a continuous production of entropy at steady state. We
study the statistics of entropy production within a lattice-based model of interacting active …

Interfaces of phase-separated systems roughen in time due to capillary waves. Because of
fluxes in the bulk, their dynamics is nonlocal in real space and is not described by the …

The vibrational dynamics of solids is described by phonons constituting basic collective
excitations in equilibrium crystals. Here, we consider a non-equilibrium active solid, formed …

In this study, we investigate the transition path of a free active Brownian particle (ABP) on a
two-dimensional plane between two given states. The extremum conditions for the most …

Observing stochastic trajectories with rare transitions between states, practically
undetectable on time scales accessible to experiments, makes it impossible to directly …

In the past years, the amount of research on active matter has grown extremely rapidly, a fact
that is reflected in particular by the existence of more than 600 review articles on this topic …

Stochastic thermodynamics is a developing theory for systems out of thermal equilibrium. It
allows to formulate a wealth of nontrivial relations among thermodynamic quantities such as …