English

Crystallization of random matrix orbits

Probability 2018-03-07 v2 Mathematical Physics Combinatorics math.MP Representation Theory

Abstract

Three operations on eigenvalues of real/complex/quaternion (corresponding to β=1,2,4\beta=1,2,4) matrices, obtained from cutting out principal corners, adding, and multiplying matrices can be extrapolated to general values of β>0\beta>0 through associated special functions. We show that β\beta\to\infty limit for these operations leads to the finite free projection, additive convolution, and multiplicative convolution, respectively. The limit is the most transparent for cutting out the corners, where the joint distribution of the eigenvalues of principal corners of a uniformly-random general β\beta self-adjoint matrix with fixed eigenvalues is known as β\beta-corners process. We show that as β\beta\to\infty these eigenvalues crystallize on the irregular lattice of all the roots of derivatives of a single polynomial. In the second order, we observe a version of the discrete Gaussian Free Field (dGFF) put on top of this lattice, which provides a new explanation of why the (continuous) Gaussian Free Field governs the global asymptotics of random matrix ensembles.

Keywords

Cite

@article{arxiv.1706.07393,
  title  = {Crystallization of random matrix orbits},
  author = {Vadim Gorin and Adam W. Marcus},
  journal= {arXiv preprint arXiv:1706.07393},
  year   = {2018}
}

Comments

25 pages. v2: misprints corrected, to appear in IMRN

R2 v1 2026-06-22T20:26:55.034Z