群的多项式有界Dehn函数

IF 0.6 2区数学 Q3 MATHEMATICS Journal of Combinatorial Algebra Pub Date : 2017-10-02 DOI:10.4171/JCA/2-4-1

A. Olshanskii

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引用次数: 7

摘要

一方面，众所周知，有限存在群的唯一次二次Dehn函数是线性的。另一方面，在图灵机和S-机的时间函数的基础上，在SBR中构造了一大类增长至少为$n^4$的Dehn函数$d（n）$（基本上所有可能的此类Dehn函数）。在（2；4）$中带有$\alpha\$的Dehn函数$n^｛\alpha}$类仍然更加神秘，尽管它已经引起了相当多的关注（例如，参见\cite｛BB｝）。我们填补了这一空白，获得了在合理时间内可计算的所有实数$\alpha\ge2$的形式为$n^｛\alpha}$（以及更多）的Dehn函数，例如，$\alphar=\pi$或$\alphal=e$，或者$\alpha$是任何代数数。正如在｛SBR｝中一样，我们使用S-机，但需要新的工具和新的证明方法来获得最佳下界$d（n）\ge n^2$。

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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Polynomially-bounded Dehn functions of groups

On the one hand, it is well known that the only subquadratic Dehn function of finitely presented groups is the linear one. On the other hand there is a huge class of Dehn functions $d(n)$ with growth at least $n^4$ (essentially all possible such Dehn functions) constructed in \cite{SBR} and based on the time functions of Turing machines and S-machines. The class of Dehn functions $n^{\alpha}$ with $\alpha\in (2; 4)$ remained more mysterious even though it has attracted quite a bit of attention (see, for example, \cite{BB}). We fill the gap obtaining Dehn functions of the form $n^{\alpha}$ (and much more) for all real $\alpha\ge 2$ computable in reasonable time, for example, $\alpha=\pi$ or $\alpha= e$, or $\alpha$ is any algebraic number. As in \cite{SBR}, we use S-machines but new tools and new way of proof are needed for the best possible lower bound $d(n)\ge n^2$.

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