Dissipation Bounds All Steady-State Current Fluctuations
Living Systems (United States) · Massachusetts Institute of Technology
Abstract
Near equilibrium, small current fluctuations are described by a Gaussian distribution with a linear-response variance regulated by the dissipation. Here, we demonstrate that dissipation still plays a dominant role in structuring large fluctuations arbitrarily far from equilibrium. In particular, we prove a linear-response-like bound on the large deviation function for currents in Markov jump processes. We find that nonequilibrium current fluctuations are always more likely than what is expected from a linear-response analysis. As a small-fluctuations corollary, we derive a recently conjectured uncertainty bound on the variance of current fluctuations.
Citation impact
- FWCI
- 33.81
- Percentile
- 100%
- References
- 49
Authors
4- TRTodd R. GingrichCorresponding
Living Systems (United States), Massachusetts Institute of Technology
- JMJordan M. Horowitz
Living Systems (United States), Massachusetts Institute of Technology
- NPNikolay Perunov
Living Systems (United States), Massachusetts Institute of Technology
- JLJeremy L. England
Living Systems (United States), Massachusetts Institute of Technology
Topics & keywords
- Dissipation
- Current (fluid)
- Steady state (chemistry)
- Physics
- Statistical physics
- Mechanics
- Quantum electrodynamics
- Thermodynamics