Moment maps and cohomology of non-reductive quotients

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Gergely Bérczi, Frances Kirwan
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引用次数: 8

Abstract

Abstract Let $H$ H be a complex linear algebraic group with internally graded unipotent radical acting on a complex projective variety $X$ X . Given an ample linearisation of the action and an associated Fubini–Study Kähler form which is invariant for a maximal compact subgroup $Q$ Q of $H$ H , we define a notion of moment map for the action of $H$ H , and under suitable conditions (that the linearisation is well-adapted and semistability coincides with stability) we describe the (non-reductive) GIT quotient $X/\!/H$ X / / H introduced in (Bérczi et al. in J. Topol. 11(3):826–855, 2018) in terms of this moment map. Using this description we derive formulas for the Betti numbers of $X/\!/H$ X / / H and express the rational cohomology ring of $X/\!/H$ X / / H in terms of the rational cohomology ring of the GIT quotient $X/\!/T^{H}$ X / / T H , where $T^{H}$ T H is a maximal torus in $H$ H . We relate intersection pairings on $X/\!/H$ X / / H to intersection pairings on $X/\!/T^{H}$ X / / T H , obtaining a residue formula for these pairings on $X/\!/H$ X / / H analogous to the residue formula of (Jeffrey and Kirwan in Topology 34(2):291–327, 1995). As an application, we announce a proof of the Green–Griffiths–Lang and Kobayashi conjectures for projective hypersurfaces with polynomial degree.

Abstract Image

非约商的矩映射与上同调
摘要设$H$ H是作用于一个复射影变量$X$ X上具有内阶单幂根的复线性代数群。给定作用的充分线性化和相关的Fubini-Study Kähler形式,该形式对于$H$ H的最大紧子群$Q$ Q是不变的,我们定义了$H$ H的作用的矩映射概念,并在适当的条件下(线性化适应良好且半稳定性与稳定性一致)我们描述了(非约化)GIT商$X/\!/H$ X / /H引入了(b2013.2013.12)等人在J. Topol. 11(3): 826-855, 2018)。利用这一描述,我们推导出$X/\!/H$ X/ /H并表示$X/\!/H$ X/ /关于GIT商$X/\!/T^{H}$ X / /T H,其中$T^{H}$ T H是$H$ H中的最大环面。我们将$X/\!/H$ X/ /H到$X/\!/T^{H}$ X/ /T H,得到$X/\!/H$ X / /H类似于(Jeffrey and Kirwan在拓扑34(2):291-327,1995)的残差公式。作为应用,我们给出了多项式次射影超曲面的Green-Griffiths-Lang猜想和Kobayashi猜想的证明。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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