关于SL(n, n)的同余子群的顶维上同调群

IF 2 1区数学

Geometry & Topology Pub Date : 2019-09-05 DOI:10.2140/GT.2021.25.999

Jeremy Miller, Peter Patzt, Andrew Putman

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引用次数: 8

摘要

设$\Gamma_n(p)$为$\text{SL}_n(\mathbb{Z})$的层- $p$主同余子群。Borel-Serre证明了$\Gamma_n(p)$的上同性在$\binom{n}{2}$以上就消失了。我们研究了这个上同次$\binom{n}{2}$。设$\mathcal{T}_n(\mathbb{Q})$表示$\text{SL}_n(\mathbb{Q})$的Tits建筑。Lee-Szczarba推测$H^{\binom{n}{2}}(\Gamma_n(p))$与$\widetilde{H}_{n-2}(\mathcal{T}_n(\mathbb{Q})/\Gamma_n(p))$是同构的，并证明了$p=3$也是如此。通过证明一个自然映射$H^{\binom{n}{2}}(\Gamma_n(p)) \rightarrow \widetilde{H}_{n-2}(\mathcal{T}_n(\mathbb{Q})/\Gamma_n(p))$总是满射，但只对$p \leq 5$是内射，我们部分地证明和部分地反驳了这个猜想。特别是，我们完全计算了$H^{\binom{n}{2}}(\Gamma_n(5))$，并改进了$p \geq 5$中$H^{\binom{n}{2}}(\Gamma_n(p))$的已知下界。

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On the top-dimensional cohomology groups of congruence subgroups of SL(n, ℤ)

Let $\Gamma_n(p)$ be the level-$p$ principal congruence subgroup of $\text{SL}_n(\mathbb{Z})$. Borel-Serre proved that the cohomology of $\Gamma_n(p)$ vanishes above degree $\binom{n}{2}$. We study the cohomology in this top degree $\binom{n}{2}$. Let $\mathcal{T}_n(\mathbb{Q})$ denote the Tits building of $\text{SL}_n(\mathbb{Q})$. Lee-Szczarba conjectured that $H^{\binom{n}{2}}(\Gamma_n(p))$ is isomorphic to $\widetilde{H}_{n-2}(\mathcal{T}_n(\mathbb{Q})/\Gamma_n(p))$ and proved that this holds for $p=3$. We partially prove and partially disprove this conjecture by showing that a natural map $H^{\binom{n}{2}}(\Gamma_n(p)) \rightarrow \widetilde{H}_{n-2}(\mathcal{T}_n(\mathbb{Q})/\Gamma_n(p))$ is always surjective, but is only injective for $p \leq 5$. In particular, we completely calculate $H^{\binom{n}{2}}(\Gamma_n(5))$ and improve known lower bounds for the ranks of $H^{\binom{n}{2}}(\Gamma_n(p))$ for $p \geq 5$.

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来源期刊

Geometry & Topology 数学-数学

自引率

5.00%

发文量

期刊介绍： Geometry and Topology is a fully refereed journal covering all of geometry and topology, broadly understood. G&T is published in electronic and print formats by Mathematical Sciences Publishers. The purpose of Geometry & Topology is the advancement of mathematics. Editors evaluate submitted papers strictly on the basis of scientific merit, without regard to authors" nationality, country of residence, institutional affiliation, sex, ethnic origin, or political views.