ECH capacities, Ehrhart theory, and toric varieties

Pub Date : 2019-06-05 DOI:10.4310/JSG.2021.v19.n2.a5
B. Wormleighton
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引用次数: 10

Abstract

ECH capacities were developed by Hutchings to study embedding problems for symplectic $4$-manifolds with boundary. They have found especial success in the case of certain toric symplectic manifolds where many of the computations resemble calculations found in cohomology of $\mathbb{Q}$-line bundles on toric varieties, or in lattice point counts for rational polytopes. We formalise this observation in the case of convex toric lattice domains $X_\Omega$ by constructing a natural polarised toric variety $(Y_{\Sigma(\Omega)},D_\Omega)$ containing the all the information of the ECH capacities of $X_\Omega$ in purely algebro-geometric terms. Applying the Ehrhart theory of the polytopes involved in this construction gives some new results in the combinatorialisation and asymptotics of ECH capacities for convex toric domains.
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ECH容量,Ehrhart理论,和环面品种
ECH能力由Hutchings发展,用于研究具有边界的辛$4$ -流形的嵌入问题。他们在某些环形辛流形的情况下取得了特别的成功,其中许多计算类似于在环形上的$\mathbb{Q}$ -线束的上同调中发现的计算,或在有理多面体的格点计数中发现的计算。在凸环点阵域$X_\Omega$的情况下,我们通过构造一个包含$X_\Omega$的纯代数几何项的ECH容量的所有信息的自然极化环簇$(Y_{\Sigma(\Omega)},D_\Omega)$来形式化这一观察结果。利用这种构造所涉及的多面体的Ehrhart理论,给出了凸环域上ECH能力的组合化和渐近性的一些新结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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