Fabio Franchini (SISSA)
Tue, Jan 26

We reconsider the status of eigenvectors of a random matrix. Traditionally, the requirement of base invariance has lead to the conclusion that invariant models describe extended systems. We show that deviations of the eigenvalue statistics from the Wigner-Dyson universality reflects itself on the eigenvector distribution. In particular, gaps in the eigenvalue density spontaneously break the U(N) symmetry to a smaller one. Models with log-normal weight, such as the Muttalib ensemble and those emerging in Chern-Simons and ABJM theories, break the U(N) in a critical way, resulting into a multi-fractal eigenvector statistics. These results pave the way to the exploration of localization problems using random matrices via the study of new classes of observables and potentially to novel, interdisciplinary, applications of matrix models.

- F. Franchini; On the Spontaneous Breaking of U(N) symmetry in invariant Matrix Models; arXiv:1412.6523.
- F. Franchini; Toward an invariant matrix model for the Anderson Transition; arXiv:1503.03341.