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Thermodynamic bound on spectral perturbations, with applications to oscillations and relaxation dynamics

Artemy Kolchinsky, Naruo Ohga, Sosuke Ito

2024Physical Review Research18 citationsDOIOpen Access PDF

Abstract

In discrete-state Markovian systems, many important properties of correlation functions and relaxation dynamics depend on the spectrum of the rate matrix. Here we demonstrate the existence of a universal trade-off between thermodynamic and spectral properties. We show that the entropy production rate, the fundamental thermodynamic cost of a nonequilibrium steady state, bounds the difference between the eigenvalues of a nonequilibrium rate matrix and a reference equilibrium rate matrix. Using this result, we derive thermodynamic bounds on the spectral gap, which governs autocorrelation times and the speed of relaxation to a steady state. We also derive the thermodynamic bounds on the imaginary eigenvalues, which govern the speed of oscillations. We illustrate our approach using a simple model of biomolecular sensing. Published by the American Physical Society 2024

Topics & Concepts

Dynamics (music)Relaxation (psychology)Statistical physicsPhysicsSpectral analysisQuantum mechanicsSpectroscopyBiologyNeuroscienceAcousticsAdvanced Thermodynamics and Statistical MechanicsQuantum Electrodynamics and Casimir EffectGas Dynamics and Kinetic Theory