Dominique Guillot, Apoorva Khare, Bala Rajaratnam
Published 2018-02-20Version 1
A surprising result of FitzGerald and Horn (1977) shows that $A^{\circ \alpha} := (a_{ij}^\alpha)$ is positive semidefinite (p.s.d.) for every entrywise nonnegative $n \times n$ p.s.d. matrix $A = (a_{ij})$ if and only if $\alpha$ is a positive integer or $\alpha \geq n-2$. Given a graph $G$, we consider the refined problem of characterizing the set $\mathcal{H}_G$ of entrywise powers preserving positivity for matrices with a zero pattern encoded by $G$. Using algebraic and combinatorial methods, we study how the geometry of $G$ influences the set $\mathcal{H}_G$. Our treatment provides new and exciting connections between combinatorics and analysis, and leads us to introduce and compute a new graph invariant called the critical exponent.
Comments: 12 pages, final version. This is an extended abstract of arXiv:1504.04069 in FPSAC 2017
Journal: Seminaire Lotharingien de Combinatoire 78B (2017), Article #62
Critical exponents of graphs
Combinatorial methods for the spectral p-norm of hypermatrices
Critical exponent of binary words with few distinct palindromes
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