论有限支配和泊恩卡对偶性

Pub Date : 2024-01-24 DOI:10.4310/hha.2024.v26.n1.a3

John R. Klein

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引用次数: 0

摘要

本文的目的是证明非同向有限波恩卡列对偶空间是非常多的。假设 $π$ 是一个有限呈现群。假定还原的格罗内狄克群 $\widetilde{K}_0 (\mathbb{Z} [\pi])$ 有一个非三价的 2 美元可分元素，我们将构造一个有限支配的、基群为 $π$ 的波恩卡列空间 $X$，使得 $X$ 不是同调有限的。$X$ 的维数可以任意变大。我们的证明依赖于一个结果，即每个有限支配空间都拥有一个稳定的波恩卡列对偶增厚。

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On finite domination and Poincaré duality

The object of this paper is to show that non-homotopy finite Poincaré duality spaces are plentiful. Let $π$ be a finitely presented group. Assuming that the reduced Grothendieck group $\widetilde{K}_0 (\mathbb{Z} [\pi])$ has a non-trivial $2$-divisible element, we construct a finitely dominated Poincaré space $X$ with fundamental group $π$ such that $X$ is not homotopy finite. The dimension of $X$ can be made arbitrarily large. Our proof relies on a result which says that every finitely dominated space possesses a stable Poincaré duality thickening.

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