Masoud Khalkhali, Nathan Pagliaroli, Andrei Parfeni, Brayden Smith
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Bootstrapping the critical behavior of multi-matrix models
Given a matrix model, by combining the Schwinger-Dyson equations with
positivity constraints on its solutions, in the large $N$ limit one is able to
obtain explicit and numerical bounds on its moments. This technique is known as
bootstrapping with positivity. In this paper we use this technique to estimate
the critical points and exponents of several matrix multi-models. As a proof of
concept, we first show it can be used to find the well-studied quartic single
matrix model's critical phenomena. We then apply the method to several similar
``unsolved" 2-matrix models with various quartic interactions. We conjecture
and present strong evidence for the string susceptibility exponent for some of
these models to be $\gamma = 1/2$, which heuristically indicates that the
continuum limit will likely be the Continuum Random Tree. For the other
2-matrix models, we find estimates of new string susceptibility exponents that
may indicate a new continuum limit. We then study an unsolved 3-matrix model
that generalizes the 3-colour model with cubic interactions. Additionally, for
all of these models, we are able to derive explicitly the first several terms
of the free energy in the large $N$ limit as a power series expansion in the
coupling constants at zero by exploiting the structure of the Schwinger-Dyson
equations.
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