Mathematics – Combinatorics
Scientific paper
2006-09-12
J. Combin. Theory Ser. A 115 (2008), pp. 237-253
Mathematics
Combinatorics
16 pages, 3 figures. Added references [2], [13], and [15]
Scientific paper
Let $T$ be an unrooted tree. The \emph{chromatic symmetric function} $X_T$, introduced by Stanley, is a sum of monomial symmetric functions corresponding to proper colorings of $T$. The \emph{subtree polynomial} $S_T$, first considered under a different name by Chaudhary and Gordon, is the bivariate generating function for subtrees of $T$ by their numbers of edges and leaves. We prove that $S_T = <\Phi,X_T>$, where $<\cdot,\cdot>$ is the Hall inner product on symmetric functions and $\Phi$ is a certain symmetric function that does not depend on $T$. Thus the chromatic symmetric function is a stronger isomorphism invariant than the subtree polynomial. As a corollary, the path and degree sequences of a tree can be obtained from its chromatic symmetric function. As another application, we exhibit two infinite families of trees (\emph{spiders} and some \emph{caterpillars}), and one family of unicyclic graphs (\emph{squids}) whose members are determined completely by their chromatic symmetric functions.
Martin Jeremy L.
Morin Matthew
Wagner Jennifer D.
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