English

Perfect matching modules, dimer partition functions and cluster characters

Representation Theory 2024-03-15 v3 Combinatorics

Abstract

Cluster algebra structures for Grassmannians and their (open) positroid strata are controlled by a Postnikov diagram D or, equivalently, a dimer model on the disc, as encoded by either a bipartite graph or the dual quiver (with faces). The associated dimer algebra A, determined directly by the quiver with a certain potential, can also be realised as the endomorphism algebra of a cluster-tilting object in an associated Frobenius cluster category. In this paper, we introduce a class of A-modules corresponding to perfect matchings of the dimer model of D and show that, when D is connected, the indecomposable projective A-modules are in this class. Surprisingly, this allows us to deduce that the cluster category associated to D embeds into the cluster category for the appropriate Grassmannian. We show that the indecomposable projectives correspond to certain matchings which have appeared previously in work of Muller-Speyer. This allows us to identify the cluster-tilting object associated to D, by showing that it is determined by one of the standard labelling rules constructing a cluster of Pl\"{u}cker coordinates from D. By computing a projective resolution of every perfect matching module, we show that Marsh-Scott's formula for twisted Pl\"{u}cker coordinates, expressed as a dimer partition function, is a special case of the general cluster character formula, and thus observe that the Marsh-Scott twist can be categorified by a particular syzygy operation in the Grassmannian cluster category.

Keywords

Cite

@article{arxiv.2106.15924,
  title  = {Perfect matching modules, dimer partition functions and cluster characters},
  author = {İlke Çanakçı and Alastair King and Matthew Pressland},
  journal= {arXiv preprint arXiv:2106.15924},
  year   = {2024}
}

Comments

55 pages; v2: reworked Section 7, new material on Muller-Speyer twists; v3: final version, Adv. Math

R2 v1 2026-06-24T03:45:20.513Z