{ "id": "1504.04069", "version": "v1", "published": "2015-04-15T23:55:50.000Z", "updated": "2015-04-15T23:55:50.000Z", "title": "Critical exponents of graphs", "authors": [ "Dominique Guillot", "Apoorva Khare", "Bala Rajaratnam" ], "comment": "20 pages, LaTeX", "categories": [ "math.CO", "math.FA" ], "abstract": "The study of entrywise powers of matrices was originated by Loewner in the pursuit of the Bieberbach conjecture. Since the work of FitzGerald and Horn (1977), it is known that $A^{\\circ \\alpha} := (a_{ij}^\\alpha)$ is positive semidefinite for every $n \\times n$ positive semidefinite matrix $A = (a_{ij})$ if and only if $\\alpha$ is an integer or $\\alpha \\geq n-2$. This surprising result naturally extends the Schur product theorem, and demonstrates the existence of a sharp phase transition in preserving positivity. In this paper, we study when entrywise powers preserve positivity for matrices with structure of zeros encoded by graphs. To each graph is associated an invariant called its \"critical exponent\", beyond which every power preserves positivity. In our main result, we determine the critical exponents of all chordal/decomposable graphs, and relate them to the geometry of the underlying graphs. We then examine the critical exponent of important families of non-chordal graphs such as cycles and bipartite graphs. Surprisingly, large families of dense graphs have small critical exponents that do not depend on the number of vertices of the graphs.", "revisions": [ { "version": "v1", "updated": "2015-04-15T23:55:50.000Z" } ], "analyses": { "subjects": [ "05C50", "15B48" ], "keywords": [ "critical exponent", "entrywise powers preserve positivity", "power preserves positivity", "sharp phase transition", "schur product theorem" ], "note": { "typesetting": "LaTeX", "pages": 20, "language": "en", "license": "arXiv", "status": "editable", "adsabs": "2015arXiv150404069G" } } }