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引用次数: 7
摘要
最近,Eilenberg的变分定理在Stone对偶定理的基础上被重新表述。在一个层面上,这种重新表述导致了几个现有的eilenberg型定理的统一和这些定理的进一步推广。在另一个层面上,这种重新表述也是自20世纪80年代末以来发展起来的无限单群研究路线的自然延续。本文特别关注后者。在此关系下,本文引入并研究了半伽罗范畴的一类,即伽罗范畴的推广;并且发展了关于半伽罗范畴的一个特别基本的理论:即(1)无限一元与半伽罗范畴之间的对偶定理;(II) Straubing[30]和Chaubard et al.[10]对两个经典eilenberg型变分定理进行了相干对偶性的重新表述;和(III) Galois-type封闭的子组分类profinite独异点的有限离散余纤化semi-galois类别。
Semi-galois Categories I: The Classical Eilenberg Variety Theory
Recently, Eilenberg’s variety theorem was reformulated in the light of Stone’s duality theorem. On one level, this reformulation led to a unification of several existing Eilenberg-type theorems and further generalizations of these theorems. On another level, this reformulation is also a natural continuation of a research line on profinite monoids that has been developed since the late 1980s. The current paper concerns the latter in particular. In this relation, this paper introduces and studies the class of semi-galois categories, i.e. an extension of galois categories; and develops a particularly fundamental theory concerning semi-galois categories: That is, (I) a duality theorem between profinite monoids and semi-galois categories; (II) a coherent duality-based reformulation of two classical Eilenberg-type variety theorems due to Straubing [30] and Chaubard et al. [10]; and (III) a Galois-type classification of closed subgroups of profinite monoids in terms of finite discrete cofibrations over semi-galois categories.
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