English

Thermodynamically Consistent Coarse-graining: from Interacting Particles to Fields via Second Quantization

Statistical Mechanics 2026-03-05 v2 Soft Condensed Matter

Abstract

We systematically derive an exact coarse-grained description for interacting particles with thermodynamically consistent stochastic dynamics, applicable across different observation scales, the mesoscopic and the macroscopic. We implement the coarse-graining procedure using the Doi-Peliti field theory, which preserves microscopic noise effects on the meso/macro scale. The exact mapping reveals the key role played by Poissonian particle occupancy statistics. We show the implications of the exact coarse-graining method using a prototypical flocking model, namely the active Ising model, which exhibits a mismatch between the microscopic and macroscopic mean-field coarse-grained descriptions. Our analysis shows that the high- and low-density regimes are governed by two different coarse-grained equations. In the low-density regime, noise effects play a prominent role, leading to a first-order phase transition. In contrast, the second-order phase transition occurs in the high-density regime. Due to the exact coarse-graining methods, our framework also opens up applicability to systematically analyze noise-induced phase transitions in other models of reciprocally and non-reciprocally interacting particles.

Keywords

Cite

@article{arxiv.2508.11430,
  title  = {Thermodynamically Consistent Coarse-graining: from Interacting Particles to Fields via Second Quantization},
  author = {Atul Tanaji Mohite and Heiko Rieger},
  journal= {arXiv preprint arXiv:2508.11430},
  year   = {2026}
}
R2 v1 2026-07-01T04:51:47.637Z