斐波那契类型群的移位动力学

Pub Date : 2022-07-30 DOI:10.1515/jgth-2022-0003
Kirk McDermott
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引用次数: 0

摘要

研究了Johnson和Mawdesley引入的Fibonacci型群G= gn¹(x 0¹x m¹x k -1) G=G_{n}(x_{0}x_{m}x_{k}^{-1})的位移动力学。主要结果涉及到𝐺的移位自同构的阶数以及确定它是否为外自同构,并且我们发现当且仅当𝐺不完全时才存在外自同构。Bogley的结果给出了非球面表示决定了在𝐺的非恒等元素上有Z n \mathbb{Z}_{n}自由移位的群,由此得出当𝐺是非平凡时,移位是一个𝑛阶的外自同构。因此,本文的重点是非球面的情况,包括斐波那契群和西拉德斯基群。除了少数例外,移位自同构的不动点和自由问题都得到了解决,在某些情况下使用计算和拓扑方法。
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Shift dynamics of the groups of Fibonacci type
Abstract We study the shift dynamics of the groups G = G n ⁢ ( x 0 ⁢ x m ⁢ x k - 1 ) G=G_{n}(x_{0}x_{m}x_{k}^{-1}) of Fibonacci type introduced by Johnson and Mawdesley. The main result concerns the order of the shift automorphism of 𝐺 and determining whether it is an outer automorphism, and we find the latter occurs if and only if 𝐺 is not perfect. A result of Bogley provides that the aspherical presentations determine groups admitting a free shift action by Z n \mathbb{Z}_{n} on the nonidentity elements of 𝐺, from which it follows that the shift is an outer automorphism of order 𝑛 when 𝐺 is nontrivial. The focus of this paper is therefore on the non-aspherical cases, which include for example the Fibonacci and Sieradski groups. With few exceptions, the fixed-point and freeness problems for the shift automorphism are solved, in some cases using computational and topological methods.
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