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Article Dans Une Revue J.Phys.Comm. Année : 2023

Functional renormalization group for multilinear disordered Langevin dynamics II: Revisiting the $p=2$ spin dynamics for Wigner and Wishart ensembles

Résumé

In this paper, we investigate the large-time behavior for a slightly modified version of the standard p=2 soft spins dynamics model, including a quartic or higher potential. The equilibrium states of such a model correspond to an effective field theory, which has been recently considered as a novel paradigm for signal detection in data science based on the renormalization group argument. We consider a Langevin-like equation, including a disorder term that leaves in the Wigner or Wishart ensemble. Then we construct a nonperturbative renormalization group formalism valid in the large N limit, where eigenvalues distributions for the disorder can be replaced by their analytic limits, namely the Wigner and Marchenko-Pastur laws. One of the main advantages of this approach is that the interactions remain local in time, avoiding the non-locality arising from the approaches that integrate out the disorder at the partition function level.

Dates et versions

hal-03921074 , version 1 (03-01-2023)

Identifiants

Citer

Vincent Lahoche, Dine Ousmane Samary, Mohamed Tamaazousti. Functional renormalization group for multilinear disordered Langevin dynamics II: Revisiting the $p=2$ spin dynamics for Wigner and Wishart ensembles. J.Phys.Comm., 2023, 7 (5), pp.055005. ⟨10.1088/2399-6528/acd09d⟩. ⟨hal-03921074⟩
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