English

Stochastic melonic kinetics with random initial conditions

High Energy Physics - Theory 2023-05-05 v3

Abstract

The probability laws associated with random tensors or tensor field theories are traditionally equilibrium distributions. In this paper, we consider a stochastic point of view, and approach the quantization by a Langevin type equation. We especially address the low-temperature behavior of the phase ordering kinetics of a stochastic complex tensor field Ti1id(x,t)T_{i_1\cdots i_d}(x,t) of size NN and rank dd in dimension DD. The method we propose use the self averaging property of the tensorial invariants in the large NN limit. In this regime, the dynamics is governed by the melonic sector, whose behavior is studied in the quenched limit, where the contractions involving d1d-1 indices self-average around a diagonal matrix proportional to the identity. The following work especially focuses on the cyclic (i.e. non-branching) melonic sector, and we study the way that the system returns to the equilibrium regime regarding the temperature and the shape of the potential. In particular, we provide a general formula for the transition temperature between these regimes. The manuscript is accompanied by numerical simulations to support the theoretical analysis, and essentially aims to open towards this new field of investigation.

Keywords

Cite

@article{arxiv.2302.02892,
  title  = {Stochastic melonic kinetics with random initial conditions},
  author = {Bio Wahabou Kpera and Vincent Lahoche and Dine Ousmane Samary},
  journal= {arXiv preprint arXiv:2302.02892},
  year   = {2023}
}

Comments

35 pages, 13 figures

R2 v1 2026-06-28T08:33:10.733Z