Active matter systems, from self-propelled colloids to motile bacteria, are characterized by the conversion of free energy into useful work at the microscopic scale. These systems generically involve physics beyond the reach of equilibrium statistical mechanics, and a persistent challenge has been to understand the nature of their nonequilibrium states. The entropy production rate and the magnitude of the steady-state probability current provide quantitative ways to do so by measuring the breakdown of time-reversal symmetry and the strength of nonequilibrium transport of measure. Yet, their efficient computation has remained elusive, as they depend on the system's unknown and high-dimensional probability density. Here, building upon recent ...
Entropy production plays a fundamental role in the study of non-equilibrium systems by offering a qu...
One of the most exciting applications of AI is automated scientific discovery based on previously am...
Living systems, as well as most physical systems with promise in industry, technology and medicine, ...
Active-matter systems operate far from equilibrium because of the continuous energy injection at the...
Active systems evade the rules of equilibrium thermodynamics by constantly dissipating energy at the...
Computing equilibrium states in condensed-matter many-body systems, such as solvated proteins, is a ...
We use Monte Carlo and genetic algorithms to train neural-network feedback-control protocols for sim...
Funder: ATTRACT Investigator Grant, Luxembourg National Research Fund Oppenheimer Research Fellowshi...
A central problem in machine learning involves modeling complex data-sets using highly flexi-ble fam...
Time-reversal symmetry breaking and entropy production are universal features of nonequilibrium phen...
Computing equilibrium states in condensed-matter many-body systems, such as solvated proteins, is a ...
Thesis: S.B., Massachusetts Institute of Technology, Department of Physics, 2018.Cataloged from PDF ...
The rate of entropy production by a stochastic process quantifies how far it is from thermodynamic e...
peer reviewedActive systems, which are driven out of equilibrium by local non-conservative forces, c...
© 2019, The Author(s). Systems coupled to multiple thermodynamic reservoirs can exhibit nonequilibri...
Entropy production plays a fundamental role in the study of non-equilibrium systems by offering a qu...
One of the most exciting applications of AI is automated scientific discovery based on previously am...
Living systems, as well as most physical systems with promise in industry, technology and medicine, ...
Active-matter systems operate far from equilibrium because of the continuous energy injection at the...
Active systems evade the rules of equilibrium thermodynamics by constantly dissipating energy at the...
Computing equilibrium states in condensed-matter many-body systems, such as solvated proteins, is a ...
We use Monte Carlo and genetic algorithms to train neural-network feedback-control protocols for sim...
Funder: ATTRACT Investigator Grant, Luxembourg National Research Fund Oppenheimer Research Fellowshi...
A central problem in machine learning involves modeling complex data-sets using highly flexi-ble fam...
Time-reversal symmetry breaking and entropy production are universal features of nonequilibrium phen...
Computing equilibrium states in condensed-matter many-body systems, such as solvated proteins, is a ...
Thesis: S.B., Massachusetts Institute of Technology, Department of Physics, 2018.Cataloged from PDF ...
The rate of entropy production by a stochastic process quantifies how far it is from thermodynamic e...
peer reviewedActive systems, which are driven out of equilibrium by local non-conservative forces, c...
© 2019, The Author(s). Systems coupled to multiple thermodynamic reservoirs can exhibit nonequilibri...
Entropy production plays a fundamental role in the study of non-equilibrium systems by offering a qu...
One of the most exciting applications of AI is automated scientific discovery based on previously am...
Living systems, as well as most physical systems with promise in industry, technology and medicine, ...