Finitely generated and finitely presented groups

This paper is a continuation of our previous work in [12]. The results, and some applications, have been described in the announcement [13]; it may be useful to discuss here, a little more fully, the nature and purpose of this work.We are concerned basically with three kinds of algorithmic problem: (1) isomorphism problems, (2) “orbit problems”, and (3) “effective generation”.(1) Isomorphism problems. Here we have a class of algebraic objects of some kind, and ask: is there a uniform algorithm for deciding whether two arbitrary members of are isomorphic? In most cases, the answer is no: no such algorithm exists. Indeed this has been one of the most notable applications of methods of mathematical logic in algebra (see [26, Chapter IV, §4] for the case where is the class of all finitely presented groups). It turns out, however, that when consists of objects which are in a certain sense “finite-dimensional”, then the isomorphism problem is indeed algorithmically soluble. We gave such algorithms in [12] for the following cases: = {finitely generated nilpotent groups}; = {(not necessarily associative) rings whose additive group is finitely generated}; = {finitely Z-generated modules over a fixed finitely generated ring}.Combining the methods of [12] with his own earlier work, Sarkisian has obtained analogous results with the integers replaced by the rationals: in [20] and [21] he solves the isomorphism problem for radicable torsion-free nilpotent groups of finite rank and for finite-dimensional Q-algebras.

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Separating Classes of Groups by First-Order Sentences

International Journal of Algebra and Computation ◽

10.1142/s0218196703001286 ◽

2003 ◽

Vol 13 (03) ◽

pp. 287-302 ◽

Cited By ~ 16

Author(s):

André Nies

Keyword(s):

Nilpotent Group ◽

Word Problem ◽

Finitely Generated ◽

Finitely Presented Groups ◽

First Order ◽

Solvable Word Problem ◽

Rank 2 ◽

Finitely Presented ◽

Solvable Word

For various proper inclusions of classes of groups [Formula: see text], we obtain a group [Formula: see text] and a first-order sentence φ such that H⊨φ but no G∈ C satisfies φ. The classes we consider include the finite, finitely presented, finitely generated with and without solvable word problem, and all countable groups. For one separation, we give an example of a f.g. group, namely ℤp ≀ ℤ for some prime p, which is the only f.g. group satisfying an appropriate first-order sentence. A further example of such a group, the free step-2 nilpotent group of rank 2, is used to show that true arithmetic Th(ℕ,+,×) can be interpreted in the theory of the class of finitely presented groups and other classes of f.g. groups.

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Reflections on some aspects of infinite groups

Groups – Complexity – Cryptology ◽

10.1515/gcc-2014-0008 ◽

2014 ◽

Vol 6 (2) ◽

Author(s):

Benjamin Fine ◽

Anthony Gaglione ◽

Gerhard Rosenberger ◽

Dennis Spellman

Keyword(s):

Finitely Generated ◽

Infinite Groups ◽

Limit Groups ◽

Finitely Presented Groups ◽

The Relationship ◽

Finitely Presented

AbstractIn this paper we survey and reflect upon several aspects of the theory of infinite finitely generated and finitely presented groups that were originally motivated by work of Gilbert Baumslag. All but the last of the topics we have chosen are all related in one way or another to the theory of limit groups and the solution of the Tarski problems. These include the residually free and fully residually free properties and the big powers condition; Baumslag doubles and extensions of centralizers; residually-𝒳 groups and extensions of results of Benjamin Baumslag and finally the relationship between CT and CSA groups.

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A periodicity theorem for acylindrically hyperbolic groups

Journal of Group Theory ◽

10.1515/jgth-2020-0032 ◽

2020 ◽

Vol 0 (0) ◽

Cited By ~ 1

Author(s):

Oleg Bogopolski

Keyword(s):

Free Groups ◽

Hyperbolic Groups ◽

Finitely Generated ◽

Finitely Presented Groups ◽

Periodicity Theorem ◽

Finitely Presented

AbstractWe generalize a well-known periodicity lemma from the case of free groups to the case of acylindrically hyperbolic groups. This generalization has been used to describe solutions of certain equations in acylindrically hyperbolic groups and to characterize verbally closed finitely generated acylindrically hyperbolic subgroups of finitely presented groups.

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Computing with knot quandles

Journal of Knot Theory and Its Ramifications ◽

10.1142/s0218216518500748 ◽

2018 ◽

Vol 27 (14) ◽

pp. 1850074

Author(s):

Graham Ellis ◽

Cédric Fragnaud

Keyword(s):

Abelian Groups ◽

Finitely Generated ◽

Computational Algebra ◽

Finitely Presented Groups ◽

Finitely Presented Group ◽

Knot Invariant ◽

Number Formula ◽

Finitely Presented

The number [Formula: see text] of colorings of a knot [Formula: see text] by a finite quandle [Formula: see text] has been used in the literature to distinguish between knot types. In this paper, we suggest a refinement [Formula: see text] to this knot invariant involving any computable functor [Formula: see text] from finitely presented groups to finitely generated abelian groups. We are mainly interested in the functor [Formula: see text] that sends each finitely presented group [Formula: see text] to its abelianization [Formula: see text]. We describe algorithms needed for computing the refined invariant and illustrate implementations that have been made available as part of the HAP package for the GAP system for computational algebra. We use these implementations to investigate the performance of the refined invariant on prime knots with [Formula: see text] crossings.

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On groups and 3-manifolds with weak dimension ≤ 1

Mathematical Proceedings of the Cambridge Philosophical Society ◽

10.1017/s0305004100048209 ◽

1974 ◽

Vol 75 (1) ◽

pp. 33-35

Author(s):

David E. Galewski

Keyword(s):

Fundamental Group ◽

Finitely Generated ◽

Finite Generation ◽

Connected Sum ◽

Finitely Presented Groups ◽

Finitely Presented Group ◽

Weak Dimension ◽

Finitely Presented

0. Introduction. A group π has weak dimension (wd) ≤ n (see Cartan and Ellen-berg (2)) if Hk(π, A) = 0 for all right Z(π)-modules A and all k > n. We say that the weak dimension of a manifold M is ≤ n if wd (πl(M))≤ n. In section 1 we show that open, orientable, irreducible 3-manifolds have wd ≤ 1 if and only if they are the monotone on of 1-handle bodies. In his celebrated theorem (10), Stallings proves that finitely presented groups of cohomological dimensions ≤ 1 are free. In section 2 we prove that if π is a finitely presented group which is the fundamental group of any orientable 3-manifold with wd ≤ 1 then π is free. We also give an example to show that the finite generation of π is necessary. (Swan (11) removes the finitely presented hypothesis from Stalling's theorem.) Finally, in section 3 we generalize a theorem of McMillan (5) and prove that if M is an open, orientable, irreducible 3-manifold with finitely generated fundamental group, then M is stably (taking the product with n ≥ 1 copies of ℝ) a connected sum along the boundary of trivial (n+2)-disc Sl bundles.

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INDICABLE GROUPS AND ENDOMORPHIC PRESENTATIONS

Glasgow Mathematical Journal ◽

10.1017/s0017089511000632 ◽

2011 ◽

Vol 54 (2) ◽

pp. 335-344

Author(s):

MUSTAFA GÖKHAN BENLI

Keyword(s):

Normal Subgroup ◽

Semidirect Product ◽

Finitely Generated ◽

Finitely Presented Groups ◽

Finitely Presented Group ◽

Free Semigroups ◽

Finitely Presented ◽

Indicable Group

AbstractIn this paper we look at presentations of subgroups of finitely presented groups with infinite cyclic quotients. We prove that if H is a finitely generated normal subgroup of a finitely presented group G with G/H cyclic, then H has ascending finite endomorphic presentation. It follows that any finitely presented indicable group without free semigroups has the structure of a semidirect product H ⋊ ℤ, where H has finite ascending endomorphic presentation.

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Bounded Depth Ascending HNN Extensions and -Semistability at infinity

Canadian Journal of Mathematics ◽

10.4153/s0008414x19000385 ◽

2019 ◽

Vol 72 (6) ◽

pp. 1529-1550

Author(s):

Michael L. Mihalik

Keyword(s):

Fundamental Group ◽

Companion Paper ◽

Fundamental Groups ◽

Finitely Generated ◽

Finitely Presented Groups ◽

New Methods ◽

Hnn Extensions ◽

Finitely Presented

AbstractA well-known conjecture is that all finitely presented groups have semistable fundamental groups at infinity. A class of groups whose members have not been shown to be semistable at infinity is the class ${\mathcal{A}}$ of finitely presented groups that are ascending HNN-extensions with finitely generated base. The class ${\mathcal{A}}$ naturally partitions into two non-empty subclasses, those that have “bounded” and “unbounded” depth. Using new methods introduced in a companion paper we show those of bounded depth have semistable fundamental group at infinity. Ascending HNN extensions produced by Ol’shanskii–Sapir and Grigorchuk (for other reasons), and once considered potential non-semistable examples are shown to have bounded depth. Finally, we devise a technique for producing explicit examples with unbounded depth. These examples are perhaps the best candidates to date in the search for a group with non-semistable fundamental group at infinity.

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