2020
DOI: 10.1016/j.topol.2020.107093
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Algebraic entropy on topologically quasihamiltonian groups

Abstract: We study the algebraic entropy of continuous endomorphisms of compactly covered, locally compact, topologically quasihamiltonian groups. We provide a Limit-free formula which helps us to simplify the computations of this entropy. Moreover, several Addition Theorems are given. In particular, we prove that the Addition Theorem holds for endomorphisms of quasihamiltonian torsion FC-groups (e.g., Hamiltonian groups).2010 Mathematics Subject Classification. 37A35, 22D40, 28D20, 20K35.

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Cited by 3 publications
(10 citation statements)
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“…Clearly, this result extends a consequence of [14, Corollary 7.2] stating that AT .G; ; H / holds for every torsion F C -group G, every 2 End.G/ and every -invariant normal subgroup H of G with H surjective and N G=H injective. Moreover, it extends one of the main results from [39], namely, that AT .G/ holds for every locally finite group G which is a quasihamiltonian F C -group. Indeed, Theorem 1.4 covers the family (2) in the above diagram, and Corollary 1.5 the union of (3) and (4), while the result from [14] concerns the groups in (4), and the result from [39] the groups in the intersection of (3) and (4).…”
supporting
confidence: 71%
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“…Clearly, this result extends a consequence of [14, Corollary 7.2] stating that AT .G; ; H / holds for every torsion F C -group G, every 2 End.G/ and every -invariant normal subgroup H of G with H surjective and N G=H injective. Moreover, it extends one of the main results from [39], namely, that AT .G/ holds for every locally finite group G which is a quasihamiltonian F C -group. Indeed, Theorem 1.4 covers the family (2) in the above diagram, and Corollary 1.5 the union of (3) and (4), while the result from [14] concerns the groups in (4), and the result from [39] the groups in the intersection of (3) and (4).…”
supporting
confidence: 71%
“…(c) In [39], the following example was given of a quasihamiltonian locally finite group H that is not an F C -group; this means that H is in (3), but it is not in (4). Let H D Z N 3 2 Ì˛Z 3 , where˛is the action of Z 3 on Z N 9 defined, for every x 2 Z 3 and every a 2 Z N 9 , by˛.x/.a/ D 4 x a.…”
Section: Finitely Quasihamiltonian Locally Finite Groupsmentioning
confidence: 99%
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