John Wheater

Rotational Symmetry Breaking in Multi-Matrix Models

ArXiv hep-th/0206226 (2002)

Authors:

JF Wheater, G Vernizzi

Abstract:

We consider a class of multi-matrix models with an action which is O(D) invariant, where D is the number of NxN Hermitian matrices X_\mu, \mu=1,...,D. The action is a function of all the elementary symmetric functions of the matrix $T_{\mu\nu}=Tr(X_\mu X_\nu)/N$. We address the issue whether the O(D) symmetry is spontaneously broken when the size N of the matrices goes to infinity. The phase diagram in the space of the parameters of the model reveals the existence of a critical boundary where the O(D) symmetry is maximally broken.

Rotational Symmetry Breaking in Multi-Matrix Models

(2002)

Authors:

JF Wheater, G Vernizzi

Modular Transformation and Boundary States in Logarithmic Conformal Field Theory

Physics Letters B 508 (2001) 203-210

Authors:

JF Wheater, Shinsuke Kawai

Convergent Yang-Mills Matrix Theories

Journal of High Energy Physics (2001)

Authors:

JF Wheater, Peter Austing

Modular transformation and boundary states in logarithmic conformal field theory

(2001)

Authors:

Shinsuke Kawai, John F Wheater