English

Preserving positivity for rank-constrained matrices

Functional Analysis 2024-03-29 v5 Classical Analysis and ODEs

Abstract

Entrywise functions preserving the cone of positive semidefinite matrices have been studied by many authors, most notably by Schoenberg [Duke Math. J. 9, 1942] and Rudin [Duke Math. J. 26, 1959]. Following their work, it is well-known that entrywise functions preserving Loewner positivity in all dimensions are precisely the absolutely monotonic functions. However, there are strong theoretical and practical motivations to study functions preserving positivity in a fixed dimension nn. Such characterizations for a fixed value of nn are difficult to obtain, and in fact are only known in the 2×22 \times 2 case. In this paper, using a novel and intuitive approach, we study entrywise functions preserving positivity on distinguished submanifolds inside the cone obtained by imposing rank constraints. These rank constraints are prevalent in applications, and provide a natural way to relax the elusive original problem of preserving positivity in a fixed dimension. In our main result, we characterize entrywise functions mapping n×nn \times n positive semidefinite matrices of rank at most ll into positive semidefinite matrices of rank at most kk for 1ln1 \leq l \leq n and 1k<n1 \leq k < n. We also demonstrate how an important necessary condition for preserving positivity by Horn and Loewner [Trans. Amer. Math. Soc. 136, 1969] can be significantly generalized by adding rank constraints. Finally, our techniques allow us to obtain an elementary proof of the classical characterization of functions preserving positivity in all dimensions obtained by Schoenberg and Rudin.

Keywords

Cite

@article{arxiv.1406.0042,
  title  = {Preserving positivity for rank-constrained matrices},
  author = {Dominique Guillot and Apoorva Khare and Bala Rajaratnam},
  journal= {arXiv preprint arXiv:1406.0042},
  year   = {2024}
}

Comments

Published in Trans. Amer. Math. Soc. This later version has a few changes to Theorem B and related results (mostly to the statements). The edits made are listed on the final page

R2 v1 2026-06-22T04:27:27.280Z