The point insertion technique and open $r$-spin theories I: moduli and orientation
Author:
Ran J. Tessler, Yizhen Zhao
Keyword:
Mathematics, Algebraic Geometry, Algebraic Geometry (math.AG), High Energy Physics - Theory (hep-th), Mathematical Physics (math-ph), Symplectic Geometry (math.SG)
journal:
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date:
2023-10-18 16:00:00
Abstract
The papers arXiv:2003.01082 [math-ph], arXiv:1809.02536 [math.SG], arXiv:2211.16302 [math-ph], arXiv:2203.02423 [math.AG] constructed an intersection theory on the moduli space of $r$-spin disks, and proved it satisfies mirror symmetry and relations with integrable hierarchies. That theory considered only disks with a single type of boundary state. In this work, we initiate the study of more general $r$-spin surfaces. We define the notion of graded $r$-spin surfaces with multiple internal and boundary states, and their moduli spaces. In $g=0,$ the disk case, we also define the associated open Witten bundle, and prove that the Witten bundle is canonically oriented relative to the moduli space. Moreover, we describe a method for gluing several moduli spaces along certain boundaries, show that gluing lifts to the Witten bundle and relative cotangent line bundles, and that the result is again canonically relatively oriented. In the sequel, we construct, based on the work of this paper, a family of $\lfloor r/2\rfloor$ intersection theories indexed by $\mathfrak{h}\in\{0,\ldots,\lfloor r/2\rfloor-1\},$ where the $\mathfrak{h}$-th one has $\mathfrak{h}+1$ possible boundary states, and calculate their intersection numbers. The $\mathfrak{h}=0$ theory is equivalent to the one constructed in arXiv:2003.01082 [math-ph], arXiv:1809.02536 [math.SG].