$G$-fixed Hilbert schemes on $K3$ surfaces, modular forms, and eta products

Pub Date : 2019-07-02 DOI:10.46298/epiga.2022.6986
J. Bryan, 'Ad'am Gyenge
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引用次数: 7

Abstract

Let $X$ be a complex $K3$ surface with an effective action of a group $G$ which preserves the holomorphic symplectic form. Let $$ Z_{X,G}(q) = \sum_{n=0}^{\infty} e\left(\operatorname{Hilb}^{n}(X)^{G} \right)\, q^{n-1} $$ be the generating function for the Euler characteristics of the Hilbert schemes of $G$-invariant length $n$ subschemes. We show that its reciprocal, $Z_{X,G}(q)^{-1}$ is the Fourier expansion of a modular cusp form of weight $\frac{1}{2} e(X/G)$ for the congruence subgroup $\Gamma_{0}(|G|)$. We give an explicit formula for $Z_{X,G}$ in terms of the Dedekind eta function for all 82 possible $(X,G)$. The key intermediate result we prove is of independent interest: it establishes an eta product identity for a certain shifted theta function of the root lattice of a simply laced root system. We extend our results to various refinements of the Euler characteristic, namely the Elliptic genus, the Chi-$y$ genus, and the motivic class.
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K3曲面上的$G$固定Hilbert格式,模形式和eta积
设$X$为复曲面$K3$,其有效作用为保持全纯辛形式的群$G$。设$$ Z_{X,G}(q) =\sum_{n=0}^{\infty} e\left(\operatorname{Hilb}^{n}(X)^{G} \right)\, q^{n-1} $$为$G$ -不变长度$n$子方案的Hilbert方案的欧拉特征的生成函数。我们证明了它的倒数$Z_{X,G}(q)^{-1}$是同余子群$\Gamma_{0}(|G|)$的权$\frac{1}{2} e(X/G)$的模尖形式的傅里叶展开式。对于所有82种可能的$(X,G)$,我们给出了一个关于$Z_{X,G}$的Dedekind eta函数的显式公式。我们证明的关键中间结果具有独立的意义:它建立了简系根格的某个移位函数的乘积恒等式。我们将我们的结果扩展到欧拉特征的各种细化,即椭圆属,Chi- $y$属和动机类。
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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