English

Temperature fluctuations in mesoscopic systems

Statistical Mechanics 2026-05-19 v1 Mesoscale and Nanoscale Physics Quantum Physics

Abstract

We study temperature fluctuations in mesoscopic NN-body systems undergoing non-equilibrium processes from the perspective of stochastic thermodynamics. By introducing a stochastic differential equation, we describe the evolution of the system's temperature during an isothermal process, with the noise term accounting for finite-size effects arising from random energy transfer between the system and the reservoir. Our analysis reveals that these fluctuations make the extensive quantities (in the thermodynamic limit) deviate from being extensive for consistency with the theory of equilibrium fluctuation. Moreover, we derive finite-size corrections to the Jarzynski equality, providing insights into how heat capacity influences such corrections. Also, our results indicate a possible violation of the principle of maximum work by an amount proportional to N1N^{-1}. Additionally, we examine the impact of temperature fluctuations in a finite-size quasi-static Carnot engine. We show that irreversible entropy production resulting from the temperature fluctuations of the working substance diminishes the average efficiency of the cycle as ηCηN1\eta_{\rm{C}}-\left\langle \eta\right\rangle \sim N^{-1}, highlighting the unattainability of the Carnot efficiency ηC\eta_{\rm{C}} for mesoscopic-scale heat engines even under the quasi-static limit

Keywords

Cite

@article{arxiv.2309.15489,
  title  = {Temperature fluctuations in mesoscopic systems},
  author = {Zhaoyu Fei and Yu-Han Ma},
  journal= {arXiv preprint arXiv:2309.15489},
  year   = {2026}
}

Comments

12pages, 5 figures, Comments are welcome

R2 v1 2026-06-28T12:33:30.520Z