Abstract
Sherman, Zelevinsky and Cerulli constructed canonically positive bases in cluster algebras associated to affine quivers having at most three vertices. Their constructions involve cluster monomials and normalized Chebyshev polynomials of the first kind evaluated at a certain “imaginary” element in the cluster algebra. Using this combinatorial description, it is possible to define for any affine quiver a set , which is conjectured to be the canonically positive basis of the acyclic cluster algebra .
In this article, we provide a geometric realization of the elements in in terms of the representation theory of . This is done by introducing an analogue of the Caldero–Chapoton cluster character, where the usual quiver Grassmannian is replaced by a constructible subset called the transverse quiver Grassmannian.
Citation
Grégoire Dupont. "Transverse quiver Grassmannians and bases in affine cluster algebras." Algebra Number Theory 4 (5) 599 - 624, 2010. https://doi.org/10.2140/ant.2010.4.599
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