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On the phase diagram of the multiscale mean-field spin-glass

In this paper we study the phase diagram of a Sherrington-Kirkpatrick (SK) model where the couplings are forced to thermalize at different time scales. Besides being a challenging generalization of the SK model, such settings may arise naturally in physics whenever part of the many degrees of freedom of a system relaxes to equilibrium considerably faster than the others. For this model we compute the asymptotic value of the second moment of the overlap distribution. Furthermore, we provide a rigorous sufficient condition for an annealed solution to hold, identifying a high temperature, or weak coupling, region. In addition, we also prove that for sufficiently strong couplings the solution must present a number of replica symmetry breaking levels at least equal to the number of time scales already present in the multiscale model. Finally, we give a sufficient condition for the existence of gaps in the support of the functional order parameters.

preprint2026arXivOpen access
Francesco CamilliPierluigi ContucciEmanuele MingioneDaniele Tantari
math-phmath.PRmath.MPcond-mat.dis-nn
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Francesco CamilliPierluigi ContucciEmanuele MingioneDaniele Tantari

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