English

Smooth Points on Positroid Varieties

Combinatorics 2024-08-01 v1

Abstract

In the Grassmannian GrC(k,n)Gr_{\mathbb{C}}(k,n) we have positroid varieties Πf\Pi_f, each indexed by a bounded affine permutation ff and containing torus-fixed points λΠf\lambda \in \Pi_f. In this paper we consider the partially ordered set consisting of quadruples (k,n,Πf,λ)(k,n,\Pi_f,\lambda) (or \textit{(positroid) pairs} (Πf,λ)(\Pi_f,\lambda) for short). The partial order is the ordering given by the covering relation \lessdot where (Πf,λ)(Πf,λ)(\Pi_f',\lambda') \lessdot (\Pi_f,\lambda) if Πf\Pi_f' is obtained by Πf\Pi_f by \textit{deletion} or \textit{contraction.} Using the results of Snider [2010], we know that positroid varieties can be studied in a neighborhood of each of these points by \textit{affine pipe dreams.} Our main theorem provides a quick test of when a positroid variety is smooth at one of these given points. It is sufficient to test smoothness of a positroid variety by using the main result to test smoothness at each of these points. These results can also be applied to the question of whether Schubert varieties in flag manifolds are smooth at points given by 321-avoiding permutations, as studied in Graham/Kreimer [2020]. We have a secondary result, which describes the minimal singular positroid pairs in our ordering - these are the positroid pairs where any deletion or contraction causes it to become smooth.

Cite

@article{arxiv.2407.21116,
  title  = {Smooth Points on Positroid Varieties},
  author = {Joseph Fluegemann},
  journal= {arXiv preprint arXiv:2407.21116},
  year   = {2024}
}
R2 v1 2026-06-28T17:58:37.156Z