Travis Schedler
Published 2007-04-24, updated 2016-02-16Version 2
We determine the Z-module structure of the preprojective algebra and its zeroth Hochschild homology, for any non-Dynkin quiver (and hence the structure working over any base commutative ring, of any characteristic). This answers (and generalizes) a conjecture of Hesselholt and Rains, producing new $p$-torsion classes in degrees 2p^l, l >= 1, We relate these classes by p-th power maps and interpret them in terms of the kernel of Verschiebung maps from noncommutative Witt theory. An important tool is a generalization of the Diamond Lemma to modules over commutative rings, which we give in the appendix. In the previous version, additional results are included, such as: the Poisson center of $\Sym HH_0(\Pi)$ for all quivers, the BV algebra structure on Hochschild cohomology, including how the Lie algebra structure $HH_0(\Pi_Q)$ naturally arises from it, and the cyclic homology groups of $\Pi_Q$.
Comments: 69 pages, 2 figures; final pre-publication version; many corrections and improvements throughout. Note though the previous version has additional results
Determinantal modules over preprojective algebras and representations of Dynkin quivers
Equivalent definitions of the preprojective algebra
The 3-Preprojective Algebras Of Type $Ã$
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