Reading, N. (2024). Noncrossing partitions of a marked surface [Preprint]. arXiv:2212.13799v5
This paper aims to generalize the concept of noncrossing partitions, originally defined for a cycle, to arbitrary marked surfaces. The author introduces two new definitions: noncrossing partitions of a marked surface and noncrossing partitions of a symmetric marked surface with double points. The study then investigates the properties of these new structures, focusing on their lattice structure, rank function, and the relationship between lower intervals and noncrossing partition lattices of related surfaces.
The paper employs a combinatorial and topological approach. It defines noncrossing partitions on marked surfaces using embedded blocks, which are essentially sub-surfaces with specific boundary conditions. The analysis leverages concepts like ambient isotopy, curve sets, simple connectors, and curve unions to characterize the partial order, cover relations, and rank function of the resulting noncrossing partition posets.
The paper establishes that the natural partial order on noncrossing partitions of a marked surface forms a graded lattice. The rank function of this lattice is determined by the number of marked points and the Betti numbers of the union of blocks in a partition. Additionally, the study demonstrates that lower intervals in this lattice are isomorphic to products of noncrossing partition lattices of other marked surfaces. For symmetric marked surfaces with double points, the paper shows that while the poset is not always a lattice, it remains graded, and its rank function can be described using the dimensions of the kernel of a specific linear map on homology. Similar to the non-symmetric case, lower intervals in this poset are also isomorphic to products of noncrossing partition posets.
The paper successfully generalizes the notion of noncrossing partitions to marked surfaces, revealing a rich combinatorial structure with connections to the topology of the underlying surface. The results provide a unifying framework for understanding noncrossing partitions in various contexts, including classical and affine Coxeter groups.
This work extends the understanding of noncrossing partitions, a fundamental object in combinatorics with applications in representation theory, algebraic geometry, and other areas. The introduction of marked surfaces as the underlying structure offers a new perspective and potentially opens avenues for further research in related fields.
The paper primarily focuses on the structural properties of noncrossing partition lattices on marked surfaces. Further investigation could explore connections to other combinatorial objects, such as triangulations and cluster algebras, and delve into the representation-theoretic aspects of these new noncrossing partition lattices. Additionally, exploring the role of punctures and their relationship to double points and symmetry could be a fruitful direction for future research.
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