Linear k-arboricity of Caylay Graphs on Abelian Groups with Given Degree

Abstract Extending a result by Alon, Linial, and Meshulam to abelian groups, we prove that if G is a finite abelian group of exponent m and S is a sequence of elements of G such that any subsequence of S consisting of at least $$|S| - m\ln |G|$$ elements generates G, then S is an additive basis of G . We also prove that the additive span of any l generating sets of G contains a coset of a subgroup of size at least $$|G{|^{1 - c{ \in ^l}}}$$ for certain c=c(m) and $$ \in = \in (m) < 1$$ ; we use the probabilistic method to give sharper values of c(m) and $$ \in (m)$$ in the case when G is a vector space; and we give new proofs of related known results.

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Finite non-Abelian groups with complemented non-Abelian subgroups

Ukrainian Mathematical Journal ◽

10.1007/bf01085959 ◽

1978 ◽

Vol 29 (6) ◽

pp. 541-544 ◽

Cited By ~ 2

Author(s):

P. P. Baryshovets

Keyword(s):

Abelian Groups ◽

Abelian Subgroups

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Computing the number of symmetric colorings of elementary Abelian groups

Alexandria Engineering Journal ◽

10.1016/j.aej.2020.10.065 ◽

2021 ◽

Vol 60 (2) ◽

pp. 2075-2081

Author(s):

Yuliya Zelenyuk

Keyword(s):

Abelian Groups

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Embedding the Picard group inside the class group: the case of $$\mathbb {Q}$$-factorial complete toric varieties

Journal of Algebraic Combinatorics ◽

10.1007/s10801-021-01025-x ◽

2021 ◽

Author(s):

Michele Rossi ◽

Lea Terracini

Keyword(s):

Free Group ◽

Toric Variety ◽

Class Group ◽

Abelian Groups ◽

Toric Varieties ◽

Picard Group ◽

Closed Field ◽

Finitely Generated ◽

Free Part ◽

Canonical Injection

AbstractLet X be a $$\mathbb {Q}$$ Q -factorial complete toric variety over an algebraic closed field of characteristic 0. There is a canonical injection of the Picard group $$\mathrm{Pic}(X)$$ Pic ( X ) in the group $$\mathrm{Cl}(X)$$ Cl ( X ) of classes of Weil divisors. These two groups are finitely generated abelian groups; while the first one is a free group, the second one may have torsion. We investigate algebraic and geometrical conditions under which the image of $$\mathrm{Pic}(X)$$ Pic ( X ) in $$\mathrm{Cl}(X)$$ Cl ( X ) is contained in a free part of the latter group.

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Infinitely presented permutation stable groups and invariant random subgroups of metabelian groups

Ergodic Theory and Dynamical Systems ◽

10.1017/etds.2021.9 ◽

2021 ◽

pp. 1-36

Author(s):

ARIE LEVIT ◽

ALEXANDER LUBOTZKY

Keyword(s):

Ergodic Theorem ◽

Abelian Groups ◽

Wreath Products ◽

Finitely Generated ◽

Metabelian Groups ◽

Amenable Groups ◽

Pointwise Ergodic Theorem ◽

Lamplighter Group ◽

Invariant Random Subgroups

Abstract We prove that all invariant random subgroups of the lamplighter group L are co-sofic. It follows that L is permutation stable, providing an example of an infinitely presented such group. Our proof applies more generally to all permutational wreath products of finitely generated abelian groups. We rely on the pointwise ergodic theorem for amenable groups.

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PERFECTLY BOUNDED CLASSES OF ABELIAN GROUPS

Journal of Algebra and Its Applications ◽

10.1142/s0219498812502088 ◽

2013 ◽

Vol 12 (05) ◽

pp. 1250208 ◽

Cited By ~ 1

Author(s):

PATRICK W. KEEF

Keyword(s):

Abelian Groups ◽

Direct Sums ◽

Proper Subclass ◽

Infinite Height ◽

Reduced Group

Let [Formula: see text] be the class of abelian p-groups. A non-empty proper subclass [Formula: see text] is bounded if it is closed under subgroups, additively bounded if it is also closed under direct sums and perfectly bounded if it is additively bounded and closed under filtrations. If [Formula: see text], we call the partition of [Formula: see text] given by [Formula: see text] a B/U-pair. We state most of our results not in terms of bounded classes, but rather the corresponding B/U-pairs. Any additively bounded class contains a unique maximal perfectly bounded subclass. The idea of the length of a reduced group is generalized to the notion of the length of an additively bounded class. If λ is an ordinal or the symbol ∞, then there is a natural largest and smallest additively bounded class of length λ, as well as a largest and smallest perfectly bounded class of length λ. If λ ≤ ω, then there is a unique perfectly bounded class of length λ, namely the pλ-bounded groups that are direct sums of cyclics; however, this fails when λ > ω. This parallels results of Dugas, Fay and Shelah (1987) and Keef (1995) on the behavior of classes of abelian p-groups with elements of infinite height. It also simplifies, clarifies and generalizes a result of Cutler, Mader and Megibben (1989) which states that the pω + 1-projectives cannot be characterized using filtrations.

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A lattice-theoretic characterization of pure subgroups of Abelian groups

Ricerche di Matematica ◽

10.1007/s11587-021-00580-6 ◽

2021 ◽

Author(s):

M. Ferrara ◽

M. Trombetti

Keyword(s):

Abelian Group ◽

Abelian Groups ◽

Subgroup Lattice ◽

General Definition ◽

Short Paper ◽

Theoretic Characterization ◽

Definition Of

AbstractLet G be an abelian group. The aim of this short paper is to describe a way to identify pure subgroups H of G by looking only at how the subgroup lattice $$\mathcal {L}(H)$$ L ( H ) embeds in $$\mathcal {L}(G)$$ L ( G ) . It is worth noticing that all results are carried out in a local nilpotent context for a general definition of purity.

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