Abstract
Let G be a simple undirected graph on n vertices, and let I(G) \subseteq R = k[x_1,...,x_n] denote its associated edge ideal. We show that all chordal graphs G are sequentially Cohen-Macaulay; our proof depends upon showing that the Alexander dual of I(G) is componentwise linear. Our result complements Faridi's theorem that the facet ideal of a simplicial tree is sequentially Cohen-Macaulay and implies Herzog, Hibi, and Zheng's theorem that a chordal graph is Cohen-Macaulay if and only if its edge ideal is unmixed. We also characterize the sequentially Cohen-Macaulay cycles and produce some examples of nonchordal sequentially Cohen-Macaulay graphs.
Cite
CITATION STYLE
Francisco, C. A., & Van Tuyl, A. (2007). Sequentially Cohen-Macaulay edge ideals. Proceedings of the American Mathematical Society, 135(08), 2327–2338. https://doi.org/10.1090/s0002-9939-07-08841-7
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