English

Schur polynomials and matrix positivity preservers

Combinatorics 2016-04-29 v2 Classical Analysis and ODEs Functional Analysis

Abstract

A classical result by Schoenberg (1942) identifies all real-valued functions that preserve positive semidefiniteness (psd) when applied entrywise to matrices of arbitrary dimension. Schoenberg's work has continued to attract significant interest, including renewed recent attention due to applications in high-dimensional statistics. However, despite a great deal of effort in the area, an effective characterization of entrywise functions preserving positivity in a fixed dimension remains elusive to date. As a first step, we characterize new classes of polynomials preserving positivity in fixed dimension. The proof of our main result is representation theoretic, and employs Schur polynomials. An alternate, variational approach also leads to several interesting consequences including (a) a hitherto unexplored Schubert cell-type stratification of the cone of psd matrices, (b) new connections between generalized Rayleigh quotients of Hadamard powers and Schur polynomials, and (c) a description of the joint kernels of Hadamard powers.

Keywords

Cite

@article{arxiv.1602.04777,
  title  = {Schur polynomials and matrix positivity preservers},
  author = {Alexander Belton and Dominique Guillot and Apoorva Khare and Mihai Putinar},
  journal= {arXiv preprint arXiv:1602.04777},
  year   = {2016}
}

Comments

Minor updates of abstract+references. Final version, 12 pages, to appear in the FPSAC 2016 Proceedings (DMTCS)

R2 v1 2026-06-22T12:50:37.296Z