Explore entropy production fluctuations and their role in encoding collective behavior in active matter systems during this 55-minute conference talk. Delve into a lower bound on entropy production fluctuations for interacting active matter, examining its tightness in relation to short-ranged interparticle correlations. Analyze four different active matter models to understand how the bound weakens near phase transitions with long-ranged correlations. Investigate the theory developed to explain large fluctuations related to phase transitions in active Brownian particles. Learn about derived control forces for tuning dissipation and phase behavior. Gain insights into the connection between dissipation and pattern formation, as well as methods for controlling these phenomena in active matter systems.
Entropy Production Fluctuations Encode Collective Behavior in Active Matter
Erwin Schrödinger International Institute for Mathematics and Physics (ESI) via YouTube
Overview
Syllabus
Trevor GrandPre - Entropy production fluctuations encode collective behavior in active matter
Taught by
Erwin Schrödinger International Institute for Mathematics and Physics (ESI)
Related Courses
-
Large Deviations of Time-Integrated Quantities in Active and Passive Matter
-
Phase Transitions in Active Matter
-
Phase Transitions and Self-Assembly in Active Matter
-
Current Fluctuations in Noninteracting Run-and-Tumble Particles in One Dimension
-
Ordering of Diffusing Spins in Brownian Spin Models
-
Yielding in Colloidal Systems Far-From-Equilibrium: From Gels to Active Matter
