Your search keyword '"2-group"' showing total 262 results

1. The automorphism group of finite 2-groups associated to the Macdonald group.

Author

Ocampo, Alexander Montoya and Szechtman, Fernando

Subjects

*AUTOMORPHISM groups, *FINITE groups, *COMMUTATION (Electricity), *MULTIPLICATION

Abstract

We consider the Macdonald group 〈 x , y | x [ x , y ] = x 1 + 2 m ℓ , y [ y , x ] = y 1 + 2 m ℓ 〉 and its Sylow 2-subgroup J = 〈 x , y | x [ x , y ] = x 1 + 2 m ℓ , y [ y , x ] = y 1 + 2 m ℓ , x 2 3 m − 1 = y 2 3 m − 1 = 1 〉 , where m ≥ 1 and ℓ is odd. Then J has order 2 7 m − 3 , and nilpotency class 5 if m > 1 and 3 if m = 1. We determine the automorphism group of the 2-groups J, H = J / Z (J) and K = H / Z (H) , where | H | = 2 6 m − 3 and | K | = 2 5 m − 3 . Explicit multiplication, power, and commutator formulas for J, H and K are given, and used in the calculation of Aut (J) , Aut (H) and Aut (K). [ABSTRACT FROM AUTHOR]

Published

2024

2. On some finite 2-groups in which the derived group has two generators.

Author

Benjamin, Elliot and Snyder, Chip

Abstract

We show that any finite 2-group, whose abelianization has either 4-rank at most 2 or 8-rank 0 and whose commutator subgroup is generated by two elements, is metabelian. We also prove that the minimal order of any 2-group with nonabelian commutator subgroup of 2-rank 2 is 212. [ABSTRACT FROM AUTHOR]

Published

2023

3. Inner autoequivalences in general and those of monoidal categories in particular.

Author

Hofstra, Pieter and Karvonen, Martti

Subjects

*GROUP theory, *CATEGORIES (Mathematics)

Abstract

We develop a general theory of (extended) inner autoequivalences of objects of any 2-category, generalizing the theory of isotropy groups to the 2-categorical setting. We show how dense subcategories let one compute isotropy in the presence of binary coproducts, unifying various known one-dimensional results and providing tractable computational tools in the two-dimensional setting. In particular, we show that the isotropy 2-group of a monoidal category coincides with its Picard 2 -group , i.e., the 2-group on its weakly invertible objects. [ABSTRACT FROM AUTHOR]

Published

2024

4. ERRATUM TO "FROM LOOP GROUPS TO 2-GROUPS".

Author

BAEZ, JOHN C., CRANS, ALISSA S., SCHREIBER, U. R. S., and STEVENSON, DANNY

Abstract

There were a number of sign errors in our paper "From loop groups to 2-groups" [Homology Homotopy Appl. 9 (2007), 101-135]. Here we explain how to correct those errors. [ABSTRACT FROM AUTHOR]

Published

2023

5. Regular maps of 2-power order.

Author

Hou, Dong-Dong, Feng, Yan-Quan, and Kwon, Young Soo

Abstract

In this paper, we consider the possible types of regular maps of order 2 n , where the order of a regular map is the order of automorphism group of the map. For n ≤ 11 , M. Conder classified all regular maps of order 2 n . It is easy to classify regular maps of order 2 n whose valency or covalency is 2 or 2 n - 1 . So we assume that n ≥ 12 and 2 ≤ s , t ≤ n - 2 with s ≤ t to consider regular maps of order 2 n with type { 2 s , 2 t } . We show that for s + t ≤ n or for s + t > n with s = t , there exists a regular map of order 2 n with type { 2 s , 2 t } , and furthermore, we classify regular maps of order 2 n with types { 2 n - 2 , 2 n - 2 } and { 2 n - 3 , 2 n - 3 } . We conjecture that if s + t > n with s < t , then there is no regular map of order 2 n with type { 2 s , 2 t } , and we confirm the conjecture for t = n - 2 and n - 3 . [ABSTRACT FROM AUTHOR]

Published

2022

6. Burnside rings for Real 2-representation theory: The linear theory.

Author

Rumynin, Dmitriy and Young, Matthew B.

Subjects

*REPRESENTATION theory, *GROUP rings, *FUNDAMENTAL groups (Mathematics)

Abstract

This paper is a fundamental study of the Real 2 -representation theory of 2 -groups. It also contains many new results in the ordinary (non-Real) case. Our framework relies on a 2 -equivariant Morita bicategory, where a novel construction of induction is introduced. We identify the Grothendieck ring of Real 2 -representations as a Real variant of the Burnside ring of the fundamental group of the 2 -group and study the Real categorical character theory. This paper unifies two previous lines of inquiry, the approach to 2 -representation theory via Morita theory and Burnside rings, initiated by the first author and Wendland, and the Real 2 -representation theory of 2 -groups, as studied by the second author. [ABSTRACT FROM AUTHOR]

Published

2021

7. GLOBULARLY GENERATED DOUBLE CATEGORIES II: THE CANONICAL DOUBLE PROJECTION.

Author

Orendain, Juan

Subjects

CATEGORIES (Mathematics), MATHEMATICAL forms, GROUPOIDS, VON Neumann algebras, HILBERT space

Abstract

Copyright of Cahiers de Topologie et Geometrie Differentielle Categoriques is the property of Andree C. EHRESMANN and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

8. Four infinite families of chiral 3-polytopes of type {4,8} with solvable automorphism groups.

Author

Hou, Dong-Dong, Zheng, Tian-Tian, and Guo, Rui-Rui

Subjects

*AUTOMORPHISM groups, *SOLVABLE groups, *POLYTOPES, *AUTOMORPHISMS, *FAMILIES

Abstract

We construct four infinite families of chiral 3-polytopes of type { 4 , 8 } , with 1024 m 4 , 2048 m 4 , 4096 m 4 and 8192 m 4 automorphisms for every positive integer m , respectively. The automorphism groups of these polytopes are solvable groups, and when m is a power of 2, they provide examples with automorphism groups of order 2 n where n ≥ 10. (On the other hand, no chiral polytopes of type { 4 , 8 } exist for n ≤ 9.) In particular, our families give a partial answer to a problem proposed by Schulte and Weiss (2006) [15] and a problem proposed by Pellicer (2012) [13]. [ABSTRACT FROM AUTHOR]

Published

2024

9. THE 2-NERVE OF A 2-GROUP AND DELIGNE'S DETERMINANT FUNCTORS.

Author

SUMANO, ELHOIM

Subjects

*NERVES

Abstract

We prove that the bisimplicial set obtained by applying the 2-nerve functor of Lack and Paoli ([Lack, Paoli, 2008]) to a 2-group ([Baez, Lauda, 2004]) seen as a bicategory with one object, is a fibrant object in the universal simplicial replacement of Dugger ([Dugger, 2001]) of the model category of reduced homotopy 2-types. As an application we deduce a well known theorem about (non-symmetric) determinant functors for Waldhausen categories or derivators ([Deligne, 1987], [Knudsen, 2002], [Muro, Tonks, 2007] and [Muro, Tonks, Witte, 2015]). [ABSTRACT FROM AUTHOR]

Published

2021

10. An invitation to higher gauge theory

Author

Baez, John C and Huerta, John

Subjects

Category, Gerbe, Higher gauge theory, String, 2-category, 2-group, Mathematical Physics, Astronomical and Space Sciences, Quantum Physics, Nuclear & Particles Physics

Abstract

In this easy introduction to higher gauge theory, we describe parallel transport for particles and strings in terms of 2-connections on 2-bundles. Just as ordinary gauge theory involves a gauge group, this generalization involves a gauge '2-group'. We focus on 6 examples. First, every abelian Lie group gives a Lie 2-group; the case of U(1) yields the theory of U(1) gerbes, which play an important role in string theory and multisymplectic geometry. Second, every group representation gives a Lie 2-group; the representation of the Lorentz group on 4d Minkowski spacetime gives the Poincaré 2-group, which leads to a spin foam model for Minkowski spacetime. Third, taking the adjoint representation of any Lie group on its own Lie algebra gives a 'tangent 2-group', which serves as a gauge 2-group in 4d BF theory, which has topological gravity as a special case. Fourth, every Lie group has an 'inner automorphism 2-group', which serves as the gauge group in 4d BF theory with cosmological constant term. Fifth, every Lie group has an 'automorphism 2-group', which plays an important role in the theory of nonabelian gerbes. And sixth, every compact simple Lie group gives a 'string 2-group'. We also touch upon higher structures such as the 'gravity 3-group', and the Lie 3-superalgebra that governs 11-dimensional supergravity. © 2010 The Author(s).

Published

2011

11. 2-Capability of 2-Generator 2-Groups of Class Two.

Author

Monfared, F. Gharibi, Kayvanfar, S., and Johari, F.

Abstract

The aim of this paper is to classify all 2-capable 2-generator 2-groups of class two. Obtaining the structure of the 2-nilpotent multipliers of these 2-groups is the other aim. [ABSTRACT FROM AUTHOR]

Published

2020

12. On Regular Polytopes of 2-Power Order.

Author

Hou, Dong-Dong, Feng, Yan-Quan, and Leemans, Dimitri

Subjects

*POLYTOPES, *AUTOMORPHISM groups

Abstract

For each d ≥ 3 , n ≥ 5 , and k 1 , k 2 , ... , k d - 1 ≥ 2 with k 1 + k 2 + ⋯ + k d - 1 ≤ n - 1 , we show how to construct a regular d-polytope whose automorphism group is of order 2 n and whose Schläfli type is { 2 k 1 , 2 k 2 , ... , 2 k d - 1 } . [ABSTRACT FROM AUTHOR]

Published

2020

13. Fuchs' problem for 2-groups.

Author

Swartz, Eric and Werner, Nicholas J.

Subjects

*FINITE rings, *FINITE groups, *ABELIAN groups, *GROUP rings, *COMMUTATIVE rings, *NILPOTENT groups, *COMMUTATIVE algebra

Abstract

Nearly 60 years ago, László Fuchs posed the problem of determining which groups can be realized as the group of units of a commutative ring. To date, the question remains open, although significant progress has been made. Along this line, one could also ask the more general question as to which finite groups can be realized as the group of units of a finite ring. In this paper, we consider the question of which 2-groups are realizable as unit groups of finite rings, a necessary step toward determining which nilpotent groups are realizable. We prove that all 2-groups of exponent 4 are realizable in characteristic 2. Moreover, while some groups of exponent greater than 4 are realizable as unit groups of rings, we establish general constraints on the exponent of a realizable 2-group. These constraints are used to describe examples of 2-groups that cannot be the group of units of a finite ring. [ABSTRACT FROM AUTHOR]

Published

2020

14. Covering groups of nonconnected topological groups and 2-groups.

Author

Rumynin, Dmitriy, Vakhrameev, Demyan, and Westaway, Matthew

Subjects

TOPOLOGICAL groups, GROUP extensions (Mathematics)

Abstract

We investigate the universal cover of a topological group that is not necessarily connected. Its existence as a topological group is governed by a Taylor cocycle, an obstruction in 3-cohomology. Alternatively, it always exists as a topological 2-group. The splitness of this 2-group is also governed by an obstruction in 3-cohomology, a Sinh cocycle. We give explicit formulas for both obstructions and show that they are equal. [ABSTRACT FROM AUTHOR]

Published

2019

15. Existence of regular 3-hypertopes with [formula omitted] chambers.

Author

Hou, Dong-Dong, Feng, Yan-Quan, and Leemans, Dimitri

Subjects

*AUTOMORPHISM groups, *MORPHISMS (Mathematics), *INTEGERS

Abstract

For any positive integers n , s , t , l such that n ≥ 10 , s , t ≥ 2 , l ≥ 1 and n ≥ s + t + l , a new infinite family of regular 3-hypertopes with type (2 s , 2 t , 2 l) and automorphism group of order 2 n is constructed. [ABSTRACT FROM AUTHOR]

Published

2019

16. Absolutely split metacyclic groups and weak metacirculants.

Author

Cui, Li and Zhou, Jin-Xin

Subjects

*AUTOMORPHISMS, *AUTOMORPHISM groups, *ACYCLIC model, *OPEN-ended questions, *INTEGERS

Abstract

Let m , n , r be positive integers, and let G = 〈 a 〉 : 〈 b 〉 ≅ C n : C m be a split metacyclic group such that b − 1 a b = a r . We say that G is absolutely split with respect to 〈 a 〉 provided that for any x ∈ G , if 〈 x 〉 ∩ 〈 a 〉 = 1 , then there exists y ∈ G such that x ∈ 〈 y 〉 and G = 〈 a 〉 : 〈 y 〉. In this paper, we give a sufficient and necessary condition for the group G being absolutely split. This generalizes a result of Sanming Zhou and the second author in [Weak metacirculants of odd prime power order, J. Comb. Theory A155 (2018) 225–243]. We also use this result to investigate the relationship between metacirculants and weak metacirculants. Metacirculants were introduced by Alspach and Parsons in 1 9 8 2 and have been a rich source of various topics since then. As a generalization of this class of graphs, Marušič and Šparl in 2008 introduced the so-called weak metacirculants. A graph is called a weak metacirculant if it has a vertex-transitive metacyclic automorphism group. In this paper, it is proved that a weak metacirculant of 2 -power order is a metacirculant if and only if it has a vertex-transitive split metacyclic automorphism group. This provides a partial answer to an open question in the literature. [ABSTRACT FROM AUTHOR]

Published

2019

17. 2-Groups, 2-characters, and Burnside rings.

Author

Rumynin, Dmitriy and Wendland, Alex

Subjects

*BURNSIDE rings, *VECTOR spaces, *HOMOMORPHISMS, *FINITE groups, *BINARY sequences

Abstract

Abstract We study 2-representations, i.e., actions of 2-groups on 2-vector spaces. Our main focus is character theory for 2-representations. To this end we employ the technique of extended Burnside rings. Our main theorem is that the Ganter–Kapranov 2-character is a particular mark homomorphism of the Burnside ring. As an application we give a new proof of Osorno's formula for the Ganter–Kapranov 2-character of a finite group. [ABSTRACT FROM AUTHOR]

Published

2018

18. Every 2-group with all subgroups normal-by-finite is locally finite.

Author

Jabara, Enrico

Abstract

A group G has all of its subgroups normal-by-finite if H/HG is finite for all subgroups H of G. The Tarski-groups provide examples of p-groups (p a “large” prime) of nonlocally finite groups in which every subgroup is normal-by-finite. The aim of this paper is to prove that a 2-group with every subgroup normal-by-finite is locally finite. We also prove that if |H/HG| 6 2 for every subgroup H of G, then G contains an Abelian subgroup of index at most 8. [ABSTRACT FROM AUTHOR]

Published

2018

19. Generating the inverse limit of free groups

Author

Gregory R. Conner, Wolfgang Herfort, Curtis Kent, and Petar Pavešić

Subjects

Normal subgroup, Pure mathematics, Fundamental group, Algebra and Number Theory, Group (mathematics), 010102 general mathematics, Cyclic group, 01 natural sciences, Subgroup, Free product, 0103 physical sciences, Hawaiian earring, 010307 mathematical physics, 0101 mathematics, 2-group, Mathematics

Abstract

We study the relation between two uncountable groups with remarkable properties (cf. [15] ): the topological free product of infinite cyclic groups G (the fundamental group of the Hawaiian Earring), and the inverse limit of finitely generated free groups F ˆ . The former has a canonical embedding as a proper subgroup of the latter and we examine when G , together with certain naturally defined normal subgroups of F ˆ generate the entire group F ˆ . We are interested in particular in normal subgroups Ker T ( F ˆ ) = ⋂ { Ker φ | φ ∈ hom ⁡ ( F ˆ , T ) } , where T is some finitely-presented n-slender group. Our main results state that if T is the infinite cyclic group or the free nilpotent class 2 group on 2 generators, then G and Ker T ( F ˆ ) generate F ˆ . On the other hand, if T is the free nilpotent class 3 group or a Baumslag-Solitar group, then the product of subgroups G ⋅ Ker T F ˆ is a proper subgroup of F ˆ . In the last section, we provide an interesting geometric interpretation of the above results in terms of path-connectedness of certain fibrations arising as inverse limits of covering spaces over the Hawaiian earring space.

Published

2021

20. Homomorphisms from infinite semilcyclic n-groups to a semiabelian n-group

Subjects

Physics, Pure mathematics, Endomorphism, Integer, General Mathematics, Isomorphism, Abelian group, 2-group, Automorphism, Direct product, Additive group

Abstract

which are isomorphic to (𝑛)-groups of homomorphisms from certain 𝑛-groups to a semiabelian 𝑛-group. Such 𝑛-groups are found for infinite semicyclic 𝑛-groups. It is known that the set 𝐻𝑜𝑚(𝐺,𝐶) of all homomorphisms from 𝑛-groups ⟨𝐺, 𝑓1⟩ to a semiabelian (abelian) 𝑛-group ⟨𝐶, 𝑓2⟩ with 𝑛-ary operation 𝑔 given by the rule 𝑔(𝜙1, . . . , 𝜙𝑛)(𝑥) = 𝑓2(𝜙1(𝑥), . . . , 𝜙𝑛(𝑥)), 𝑥 ∈ 𝐺, forms a semiabelian (abelian) 𝑛-group. It is proved that the isomorphisms 𝜓1 of 𝑛-groups ⟨𝐺, 𝑓1⟩ and ⟨𝐺′, 𝑓′1 ⟩ and 𝑝𝑠𝑖2 of semiabelian 𝑛-groups ⟨𝐶, 𝑓2⟩ and ⟨𝐶′, 𝑓′2⟩ induce an isomorphism 𝜏 of 𝑛-groups of homomorphisms ⟨𝐻𝑜𝑚(𝐺,𝐶), 𝑔⟩ and ⟨𝐻𝑜𝑚(𝐺′,𝐶′), 𝑔′⟩, which acts according to the rule 𝜏 : 𝛼 → 𝜓2 ∘ 𝛼 ∘ 𝜓−1 1 .On the additive group of integers 𝑍 we construct an abelian 𝑛-group ⟨𝑍, 𝑓1⟩ with 𝑛-ary operation 𝑓1(𝑧1, . . . , 𝑧𝑛) = 𝑧1 + . . . + 𝑧𝑛 + 𝑙, where 𝑙 is any integer. For a nonidentical automorphism 𝜙(𝑧) = −𝑧 on 𝑍, we can specify semiabelian 𝑛-group ⟨𝑍, 𝑓2⟩ for 𝑛 = 2𝑘 + 1, 𝑘 ∈ 𝑁, with the 𝑛-ary operation 𝑓2(𝑧1, . . . , 𝑧𝑛) = 𝑧1 − 𝑧2 + . . . + 𝑧2𝑘−1 − 𝑧2𝑘 + 𝑧2𝑘+1. Any infinite semicyclic 𝑛-group is isomorphic to either the 𝑛-group ⟨𝑍, 𝑓1⟩, where 0 ≤ 𝑙 ≤ [𝑛−1 2 ], or the 𝑛-group ⟨𝑍, 𝑓2⟩ for odd 𝑛. In the first case we will say that such 𝑛-group has type (∞, 1, 𝑙), and in the second case, it has type (∞,−1, 0). In studying the 𝑛-groups of homomorphisms ⟨𝐻𝑜𝑚(𝑍,𝐶), 𝑔⟩ from an infinite abelian semicyclic 𝑛-group ⟨𝑍, 𝑓1⟩ (0 ≤ 𝑙 ≤ 𝑛−1 2 ) to a semiabelian 𝑛-group ⟨𝐶, 𝑓2⟩ we construct on the 𝑛-group ⟨𝐶, 𝑓2⟩ an abelian group 𝐶 with the addition operation 𝑎 + 𝑏 = 𝑓2(𝑎, (𝑛−3) 𝑐 , ¯𝑐, 𝑏), in which there is an element 𝑑2 = 𝑓2( (𝑛) 𝑐 ) and an automorphism 𝜙2(𝑥) = 𝑓2(𝑐, 𝑥, (𝑛−3) 𝑐 , ¯𝑐). Choose a set 𝑃1 of such ordered pairs (𝑎, 𝑢) of elements from 𝐶 that satisfy the equality 𝑙𝑎 = 𝑑2 + ∼𝜙2(𝑢), where ∼𝜙2(𝑥) = 𝑥 + 𝜙2(𝑥) + . . . + 𝜙𝑛−2 2 (𝑥), 𝑥 ∈ 𝐶 is an endomorphism of the group 𝐶, and for the first component of these pairs the equality is true 𝜙2(𝑎) = 𝑎. On this set, we define a 𝑛-ary operation ℎ1 by the rule ℎ1((𝑎1, 𝑢1), . . . , (𝑎𝑛, 𝑢𝑛)) = (𝑎1 + . . . + 𝑎𝑛, 𝑓2(𝑢1, . . . , 𝑢𝑛)). It is proved that ⟨𝑃1, ℎ1⟩ is a semiabelian 𝑛-group, which is isomorphic to the 𝑛-group of homomorphisms from an infinite abelian semicyclic 𝑛-group ⟨𝑍, 𝑓1⟩ (0 ≤ 𝑙 ≤ 𝑛−1 2 ) to an 𝑛-group ⟨𝐶, 𝑓2⟩. The consequence of this isomorphism is an isomorphism of 𝑛-groups of ⟨𝑃1, ℎ1⟩ and 𝑛-groups of homomorphisms from an infinite abelian semicyclic 𝑛-group of type (∞, 1, 𝑙) to a semiabelian 𝑛-group ⟨𝐶, 𝑓2⟩. When studying the 𝑛-group of homomorphisms ⟨𝐻𝑜𝑚(𝑍,𝐶), 𝑔⟩ from the infinite semicyclic 𝑛-group ⟨𝑍, 𝑓′1 ⟩ to the semiabelian 𝑛-group ⟨𝐶, 𝑓2⟩ in the abelian group 𝐶 choose the subgroup 𝐻 = {𝑎 ∈ 𝐶 | 𝜙2(𝑎) = −𝑎}. On 𝐻 we define a semiabelian 𝑛-group ⟨𝐻, ℎ⟩, where ℎ acts according to the rule ℎ(𝑎1, 𝑎2, . . . , 𝑎𝑛−1, 𝑎𝑛) = 𝑎1 +𝜙2(𝑎2)+. . .+𝜙𝑛−2 2 (𝑎𝑛−1)+𝑎𝑛. Then in the 𝑛-group ⟨𝐶, 𝑓2⟩ we select the subgroup ⟨𝑇, 𝑓2⟩ of all dempotents, if 𝑇 = ∅. It is proved that foran odd number 𝑛 > 1 a direct product of semiabelian 𝑛-groups ⟨𝐻, ℎ⟩ × ⟨𝑇, 𝑓2⟩ is isomorphic to 𝑛-group of homomorphisms from infinite semicyclic 𝑛-groups of ⟨𝑍, 𝑓′ 1⟩ to a semiabelian 𝑛-group ⟨𝐶, 𝑓2⟩ with a non empty set of idempotents 𝑇. The consequence of this isomorphism is the isomorphism of the 𝑛-group ⟨𝐻, ℎ⟩ × ⟨𝑇, 𝑓2⟩ and 𝑛-groups of homomorphisms from an infinite semicyclic 𝑛-group of type (∞,−1, 0) to the semiabelian 𝑛-group ⟨𝐶, 𝑓2⟩. Similar facts were obtained when studying the 𝑛-group of homomorphisms ⟨𝐻𝑜𝑚(𝑍,𝐶), 𝑔⟩ from 𝑛-groups ⟨𝑍, 𝑓1⟩ and ⟨𝑍, 𝑓′ 1⟩ to an abelian 𝑛-group ⟨𝐶, 𝑓2⟩

Published

2021

21. The classification of finite groups by using iteration digraphs.

Author

Ahmad, Uzma and Moeen, Muqadas

Abstract

A digraph is associated with a finite group by utilizing the power map f: G → G defined by f( x) = x for all x ∈ G, where k is a fixed natural number. It is denoted by γ G( n, k). In this paper, the generalized quaternion and 2-groups are stud- ied. The height structure is discussed for the generalized quaternion. The necessary and sufficient conditions on a power digraph of a 2-group are determined for a 2-group to be a generalized quaternion group. Further, the classification of two generated 2-groups as abelian or non-abelian in terms of semi-regularity of the power digraphs is completed. [ABSTRACT FROM AUTHOR]

Published

2016

22. Vertex-minimal planar graphs with cyclic 2-group symmetry

Author

Charles Schmidt, L.-K. Lauderdale, Kassie Archer, Phung T. Tran, Rebecca Darby, Asa Linson, and Mariah K. Maxfield

Subjects

Vertex (graph theory), Automorphism group, Algebra and Number Theory, Conjecture, 010102 general mathematics, Cyclic group, 0102 computer and information sciences, Automorphism, 01 natural sciences, Planar graph, Combinatorics, symbols.namesake, 010201 computation theory & mathematics, symbols, Discrete Mathematics and Combinatorics, 0101 mathematics, 2-group, Mathematics

Abstract

For the positive integer m, let $${\mathbb {Z}}_m$$ denote the cyclic group of order m. Vertex-minimal planar graphs with prescribed automorphism group $${\mathbb {Z}}_m$$ were first considered by Marusic. In particular, when m is odd he produced a vertex-minimal planar graph with $${\mathbb {Z}}_m$$ -symmetry. Marusic then conjectured the order of a vertex-minimal planar graph with $${\mathbb {Z}}_m$$ -symmetry when m is a power of 2; in this article, we prove his conjecture. We conclude by discussing vertex-minimal planar graphs with noncyclic automorphism groups and pose some open questions.

Published

2020

23. Vertex-minimal graphs with nonabelian $${\mathbf{2}}$$-group symmetry

Author

L.-K. Lauderdale and Jay Zimmerman

Subjects

Finite group, Automorphism group, Algebra and Number Theory, 010102 general mathematics, 0102 computer and information sciences, 01 natural sciences, Graph, Subject matter, Vertex (geometry), Combinatorics, 010201 computation theory & mathematics, Discrete Mathematics and Combinatorics, 0101 mathematics, 2-group, Mathematics

Abstract

A graph whose full automorphism group is isomorphic to a finite group G is called a G-graph, and we let $$\alpha (G)$$ denote the minimal number of vertices among all G-graphs. The value of $$\alpha (G)$$ has been established for numerous infinite families of groups. In this article, we expand upon the subject matter of vertex-minimal G-graphs by computing the value of $$\alpha (G)$$ when G is isomorphic to either a quasi-dihedral group or a quasi-abelian group. These results completely establish the value of $$\alpha (G)$$ when G is a member of one of the six infinite families of 2-groups that contain a cyclic subgroup of index 2.

Published

2020

24. ON DETERMINABILITY OF A COMPLETELY DECOMPOSABLE RANK 2 GROUP BY ITS AUTOMORPHISM GROUP

Author

E A Timoshenko, V K Vildanov, and V A Gaidak

Subjects

Combinatorics, Automorphism group, Mechanics of Materials, Mechanical Engineering, General Mathematics, Computational Mechanics, Rank (graph theory), 2-group, Mathematics

Published

2020

25. REPRESENTATIONS AND CHARACTERS OF SALINGAROS' vee GROUPS OF LOW ORDER.

Author

Gayan Maduranga, Kehelwala Dewag and Abłamowicz, Rafał

Subjects

*CLIFFORD algebras, *CONJUGACY classes, *REPRESENTATIONS of groups (Algebra)

Abstract

We study irreducible representations and characters of Salingaros' vee groups of orders 4, 8, and 16 as 2-groups of exponent 4. In particular, we construct complex irreducible group modules and explicit representations of these groups. We prove a theorem regarding the number of conjugacy classes and the number of inequivalent irreducible representations of degree one and two. We show how to decompose a complex group algebra into irreducible submodules in accordance with Maschke's Theorem. We formulate two algorithms for finding bases for these submodules which rely on the Groebner basis methods. In the end, we provide the character tables of these groups. [ABSTRACT FROM AUTHOR]

Published

2016

26. On Regular Polytopes of 2-Power Order

Author

Dimitri Leemans, Dong Dong Hou, and Yan-Quan Feng

Subjects

050101 languages & linguistics, Automorphism group, String C-group, 05 social sciences, Géométrie, Order (ring theory), 2-Group, 02 engineering and technology, Type (model theory), Theoretical Computer Science, Combinatorics, Mathématiques, Computational Theory and Mathematics, Regular polytope, Informatique mathématique, 0202 electrical engineering, electronic engineering, information engineering, Discrete Mathematics and Combinatorics, 020201 artificial intelligence & image processing, 0501 psychology and cognitive sciences, Geometry and Topology, 2-group, Mathematics

Abstract

For each d≥ 3 ,n≥ 5 ,and k1, k2, … ,kd - 1≥ 2 with k1+ k2+ ⋯ + kd - 1≤ n- 1 ,we show how to construct a regular d-polytope whose automorphism group is of order 2 n and whose Schläfli type is {2k1,2k2,…,2kd-1}., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2019

27. TRANSFORMATION DOUBLE CATEGORIES ASSOCIATED TO 2-GROUP ACTIONS.

Author

MORTON, JEFFREY C. and PICKEN, ROGER

Subjects

*GROUP actions (Mathematics), *ALGEBRAIC varieties, *TOPOLOGICAL transformation groups, *GROUPOIDS, *GROUP theory

Abstract

Transformation groupoids associated to group actions capture the interplay between global and local symmetries of structures described in set-theoretic terms. This paper examines the analogous situation for structures described in category-theoretic terms, where symmetry is expressed as the action of a 2-group G (equivalently, a categorical group) on a category C. It describes the construction of a transformation groupoid in diagrammatic terms, and considers this construction internal to Cat, the category of categories. The result is a double category C//G which describes the local symmetries of C. We define this and describe some of its structure, with the adjoint action of G on itself as a guiding example. [ABSTRACT FROM AUTHOR]

Published

2015

28. On some metabelian 2-group whose abelianization is of type (2, 2, 2) and applications.

Author

Azizi, A., Zekhnini, A., and Taous, M.

Abstract

Let G be some metabelian 2-group satisfying the condition G / G ′ ≃ ℤ / 2 ℤ × ℤ / 2 ℤ × ℤ / 2 ℤ . In this paper, we construct all the subgroups of G of index 2 or 4, we give the abelianization types of these subgroups and we compute the kernel of the transfer map. Then we apply these results to study the capitulation problem of the 2-ideal classes of some fields k satisfying the condition G al ( k 2 ( 2 ) / k ) ≃ G , where k 2 ( 2 ) is the second Hilbert 2-class field of k . [ABSTRACT FROM AUTHOR]

Published

2015

29. Normality and Quotients in Crossed Modules and Group-groupoids.

Author

Mucuk, Osman, Şahan, Tunçar, and Alemdar, Nazmiye

Abstract

We consider the important equivalence between crossed modules and group-groupoids, and show how normality and quotient concepts are related in these two categories. [ABSTRACT FROM AUTHOR]

Published

2015

30. On Regular Polytopes of 2-Power Order

Author

Hou, Dong Dong, Feng, Yan Quan, Leemans, Dimitri, Hou, Dong Dong, Feng, Yan Quan, and Leemans, Dimitri

Abstract

For each d≥ 3 ,n≥ 5 ,and k1, k2, … ,kd - 1≥ 2 with k1+ k2+ ⋯ + kd - 1≤ n- 1 ,we show how to construct a regular d-polytope whose automorphism group is of order 2 n and whose Schläfli type is {2k1,2k2,…,2kd-1}., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2020

31. On the minimal degree of a transitive permutation group with stabilizer a 2-group

Author

Pablo Spiga, Primož Potočnik, Potocnik, P, and Spiga, P

Subjects

Transitive relation, Algebra and Number Theory, Degree (graph theory), 010102 general mathematics, 0102 computer and information sciences, minimal degree, Permutation group, Stabilizer (aeronautics), 01 natural sciences, Combinatorics, 010201 computation theory & mathematics, 0101 mathematics, 2-group, Mathematics

Abstract

The minimal degree of a permutation group G is defined as the minimal number of non-fixed points of a non-trivial element of G. In this paper, we show that if G is a transitive permutation group of degree n having no non-trivial normal 2-subgroups such that the stabilizer of a point is a 2-group, then the minimal degree of G is at least 2 3 ⁢ n {\frac{2}{3}n} . The proof depends on the classification of finite simple groups.

Published

2021

32. The Brauer indecomposability of Scott modules with wreathed $2$-group vertices

Author

İpek Tuvay and Shigeo Koshitani

Subjects

Finite group, General Mathematics, 20C20, 20C05, Mathematics::Rings and Algebras, Group Theory (math.GR), Indecomposability, Prime (order theory), Combinatorics, FOS: Mathematics, Bimodule, Order (group theory), Representation Theory (math.RT), Abelian group, 2-group, Indecomposable module, Mathematics::Representation Theory, Mathematics - Group Theory, Mathematics - Representation Theory, Mathematics

Abstract

We give a sufficient condition for the $kG$-Scott module with vertex $P$ to remain indecomposable under taking the Brauer construction for any subgroup $Q$ of $P$ as $k[Q\,C_G(Q)]$-module, where $k$ is a field of characteristic $2$, and $P$ is a wreathed $2$-subgroup of a finite group $G$. This generalizes results for the cases where $P$ is abelian and some others. The motivation of this paper is that the Brauer indecomposability of a $p$-permutation bimodule ($p$ is a prime) is one of the key steps in order to obtain a splendid stable equivalence of Morita type by making use of the gluing method that then can possibly lift to a splendid derived equivalence.

Published

2020

33. CROSSED MODULES OF RACKS.

Author

CRANS, ALISSA S. and WAGEMANN, FRIEDRICH

Subjects

*MODULES (Algebra), *TOPOLOGY, *FUNCTOR theory, *HOMOMORPHISMS, *AXIOMS

Abstract

We generalize the notion of a crossed module of groups to that of a crossed module of racks. We investigate the relation to categorified racks, namely strict 2-racks, and trunk-like objects in the category of racks, generalizing the relation between crossed modules of groups and strict 2-groups. Then we explore topological applications. We show that by applying the rackspace functor, a crossed module of racks gives rise to a covering. Our main result shows how the fundamental racks associated to links upstairs and downstairs in a covering fit together to form a crossed module of racks. [ABSTRACT FROM AUTHOR]

Published

2014

34. Refractive index of air. 2. Group index: comment

Author

Florian Pollinger

Subjects

Index (economics), business.industry, Geodetic datum, 01 natural sciences, Atomic and Molecular Physics, and Optics, 010309 optics, Optics, 0103 physical sciences, Applied mathematics, Electrical and Electronic Engineering, 2-group, business, Engineering (miscellaneous), Refractive index, Mathematics, Sign (mathematics)

Abstract

Philip E. Ciddor and Reginald J. Hill published an analytical expression and a detailed procedure in 1999 on how to compute the group refractive index of air [Appl. Opt. 38, 1663 (1999).APOPAI0003-693510.1364/AO.38.001663]. The International Association of Geodesy (IAG) has been referring to this procedure in its official recommendations for the compensation of the index of refraction in geodetic observations since then. Equation (B2) of the published procedure, however, contains a sign error. For proper application, this error must be corrected accordingly.

Published

2020

35. On Groups with Cayley Graph Isomorphic to a Cube.

Author

Hagemeyer, Colin and Scott, Richard

Subjects

GROUP theory, CAYLEY graphs, ISOMORPHISM (Mathematics), STABILITY theory, GEOMETRIC analysis, MATHEMATICAL decomposition

Abstract

We say that a groupGis acube groupif it is generated by a setSof involutions such that the corresponding Cayley graph Cay(G,S) is isomorphic to a cube. Equivalently,Gis a cube group if it acts on a cube such that the action is simply-transitive on the vertices and the edge stabilizers are all nontrivial. The action on the cube extends to an orthogonal linear action, which we call thegeometric representation. We prove a combinatorial decomposition for cube groups into products of 2-element subgroups, and show that the geometric representation is always reducible. [ABSTRACT FROM PUBLISHER]

Published

2014

36. Centrification of Algebras and Hopf Algebras

Author

Dmitriy Rumynin and Matthew Westaway

Subjects

Pure mathematics, 010308 nuclear & particles physics, Covering space, Group extension, General Mathematics, 010102 general mathematics, Mathematics - Rings and Algebras, Primary 16S15, Secondary 16T05, Hopf algebra, 01 natural sciences, Cohomology, Rings and Algebras (math.RA), 0103 physical sciences, Mathematics - Quantum Algebra, FOS: Mathematics, Quantum Algebra (math.QA), 0101 mathematics, Representation Theory (math.RT), 2-group, QA, Associative property, Mathematics - Representation Theory, Mathematics

Abstract

We investigate a method of construction of central deformations of associative algebras, which we call centrification. We prove some general results in the case of Hopf algebras and provide several examples., Version 2: many minor improvements, one minor correction. Version 3: further minor improvements, close to the final published version. To appear in Canadian Mathematical Bulletin

Published

2020

37. On finite core-p2 p-groups

Author

Heng Lv, Jianjun Liu, and Wei Zhou

Subjects

Discrete mathematics, Algebra and Number Theory, Group (mathematics), 010102 general mathematics, 0102 computer and information sciences, 01 natural sciences, Upper and lower bounds, Combinatorics, Nilpotent, Subgroup, 010201 computation theory & mathematics, Core (graph theory), 0101 mathematics, 2-group, Mathematics

Abstract

A p -group G is called a core- p 2 group if | H : H G | ≤ p 2 for every subgroup H of G (where H G denotes the normal core of H in G ). In this paper, it is proved that the nilpotent class of a finite core- p 2 p -group is at most 5 if p ≥ 3 , which is the best upper bound, and the derived length of a finite core- p 2 p -group is at most 3 if p ≥ 3 , which is also the best upper bound.

Published

2018

38. Every $2$-group with all subgroups normal-by-finite is locally finite

Author

Enrico Jabara

Subjects

Group (mathematics), 010102 general mathematics, 2-group core-finite grouplocally finite groupnormal-by-finite subgroup, 01 natural sciences, Prime (order theory), 010101 applied mathematics, Combinatorics, Settore MAT/02 - Algebra, Mathematics::Group Theory, Ordinary differential equation, 0101 mathematics, Abelian group, 2-group, Mathematics

Abstract

A group G has all of its subgroups normal-by-finite if H/H G is finite for all subgroups H of G. The Tarski-groups provide examples of p-groups (p a “large” prime) of nonlocally finite groups in which every subgroup is normal-by-finite. The aim of this paper is to prove that a 2-group with every subgroup normal-by-finite is locally finite. We also prove that if |H/H G | 6 2 for every subgroup H of G, then G contains an Abelian subgroup of index at most 8.

Published

2018

39. A Note on Generalized Quaternion 2-Group

Subjects

Algebra, General Materials Science, 2-group, Quaternion, Mathematics

Published

2018

40. Multiplicative Jordan decomposition in group rings and p-groups with all noncyclic subgroups normal

Author

Liu, Chia-Hsin

Subjects

*JORDAN algebras, *MATHEMATICAL decomposition, *GROUP rings, *ABELIAN p-groups, *MATHEMATICAL analysis, *LINEAR algebra

Abstract

Abstract: Let p be a prime and let G be a finite p-group. We show that if the integral group ring satisfies the multiplicative Jordan decomposition property, then every noncyclic subgroup of G is normal. This is used to simplify the work of Hales, Passi and Wilson on the classification of integral group rings of finite 2-groups with the multiplicative Jordan decomposition property. [Copyright &y& Elsevier]

Published

2012

41. Existence of regular 3-hypertopes with 2^n chambers

Author

Hou, Dong Dong, Feng, Yan Quan, Leemans, Dimitri, Hou, Dong Dong, Feng, Yan Quan, and Leemans, Dimitri

Abstract

For any positive integers n,s,t,l such that n≥10, s,t≥2, l≥1 and n≥s+t+l, a new infinite family of regular 3-hypertopes with type (2 s ,2 t ,2 l ) and automorphism group of order 2 n is constructed., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2019

42. On finite Alperin 2-groups with elementary abelian second commutants.

Author

Veretennikov, B.

Subjects

*FINITE groups, *ABELIAN groups, *PROOF theory, *PROBLEM solving, *ISOMORPHISM (Mathematics), *EXISTENCE theorems, *GENERATORS of groups, *COMMUTATORS (Operator theory)

Abstract

By an Alperin group we mean a group in which the commutant of each 2-generated subgroup is cyclic. Alperin proved that if p is an odd prime then all finite p-groups with this property are metabelian. The today's actual problem is the construction of examples of nonmetabelian finite Alperin 2-groups. Note that the author had given some examples of finite Alperin 2-groups with second commutants isomorphic to Z and Z and proved the existence of finite Alperin 2-groups with cyclic second commutants of however large order by appropriate examples. In this article the existence is proved of finite Alperin 2-groups with abelian second commutants of however large rank. [ABSTRACT FROM AUTHOR]

Published

2012

43. The 2-group of symmetries of a split chain complex

Author

Elgueta, Josep

Subjects

*GROUP theory, *SYMMETRIC functions, *HOMOTOPY equivalences, *LINEAR systems, *ABELIAN categories, *GENERALIZATION, *VECTOR spaces

Abstract

Abstract: We explicitly compute the 2-group of self-equivalences and (homotopy classes of) chain homotopies between them for any split chain complex A in an arbitrary -linear abelian category ( any commutative ring with unit). In particular, it is shown that it is a split 2-group whose equivalence class depends only on the homology of A, and that it is equivalent to the trivial 2-group when A is exact. This provides a description of the general linear 2-group of a Baez and Crans 2-vector space over an arbitrary field and of its generalization to chain complexes of vector spaces of arbitrary length. [Copyright &y& Elsevier]

Published

2012

44. Group-groupoids and monodromy groupoids

Author

Mucuk, O., Kılıçarslan, B., Şahan, T., and Alemdar, N.

Subjects

*MONODROMY groups, *GROUP theory, *GROUPOIDS, *COVERING spaces (Topology), *ALGEBRAIC topology, *MATHEMATICAL analysis

Abstract

Abstract: This paper gives an introduction to some results on monodromy groupoids and the monodromy principle, and then develops the notion of monodromy groupoid for group groupoids. [Copyright &y& Elsevier]

Published

2011

45. Finite alperin 2-groups with cyclic second commutants.

Author

Veretennikov, B.

Subjects

*FINITE groups, *ARBITRARY constants, *PERMUTATIONS, *AUTOMORPHISMS, *NATURAL numbers

Abstract

An Alperin group is a group in which every 2-generated subgroup has a cyclic commutant. Previously, we constructed examples of finite Alperin 2-groups with second commutant isomorphic to Z or Z. Here, it is proved that for any natural n, there exists a finite Alperin 2-group whose second commutant is isomorphic to Z. [ABSTRACT FROM AUTHOR]

Published

2011

46. SMOOTH FUNCTORS VS. DIFFERENTIAL FORMS.

Author

SCHREIBER, URS and WALDORF, KONRAD

Subjects

*FUNCTOR theory, *DIFFERENTIAL forms, *GROUPOIDS, *MANIFOLDS (Mathematics), *CATEGORIES (Mathematics), *DIFFERENTIAL geometry, *LOOP spaces, *MATHEMATICAL transformations

Abstract

We establish a relation between smooth 2-functors defined on the path 2-groupoid of a smooth manifold and differential forms on this manifold. This relation can be understood as a part of a dictionary between fundamental notions from category theory and differential geometry. We show that smooth 2-functors appear in several fields, namely as connections on (non-abelian) gerbes, as derivatives of smooth functors and as critical points in BF theory. We demonstrate further that our dictionary provides a powerful tool to discuss the transgression of geometric objects to loop spaces. [ABSTRACT FROM AUTHOR]

Published

2011

47. Butterflies II: Torsors for 2-group stacks

Author

Aldrovandi, Ettore and Noohi, Behrang

Subjects

*GROUP theory, *HOMOLOGY theory, *MORPHISMS (Mathematics), *MODULES (Algebra), *MATHEMATICAL mappings, *MATHEMATICAL analysis

Abstract

Abstract: We study torsors over 2-groups and their morphisms. In particular, we study the first non-abelian cohomology group with values in a 2-group. Butterfly diagrams encode morphisms of 2-groups and we employ them to examine the functorial behavior of non-abelian cohomology under change of coefficients. We re-interpret the first non-abelian cohomology with coefficients in a 2-group in terms of gerbes bound by a crossed module. Our main result is to provide a geometric version of the change of coefficients map by lifting a gerbe along the “fraction” (weak morphism) determined by a butterfly. As a practical byproduct, we show how butterflies can be used to obtain explicit maps at the cocycle level. In addition, we discuss various commutativity conditions on cohomology induced by various degrees of commutativity on the coefficient 2-groups, as well as specific features pertaining to group extensions. [Copyright &y& Elsevier]

Published

2010

48. THE 2-GROUPS OF ODD STRONG SYMMETRIC GENUS.

Author

MAY, COY L. and ZIMMERMAN, JAY

Subjects

*RIEMANN surfaces, *FINITE groups, *GROUP theory, *RINGS of integers, *MATHEMATICAL functions

Abstract

Let G be a finite group. The strong symmetric genusσ0(G) is the minimum genus of any Riemann surface on which G acts preserving orientation. We show that a 2-group G has strong symmetric genus congruent to 3 (mod 4) if and only if G is in one of 14 families of groups. A consequence of this classification is that almost all positive integers that are the genus of a 2-group are congruent to 1 (mod 4). [ABSTRACT FROM AUTHOR]

Published

2010

49. 2-Groups G with Every Automorphism Fixing G/G' Elementwise.

Author

Soleimani, R.

Subjects

*AUTOMORPHIC forms, *INFINITY (Mathematics), *ISOTROPY subgroups, *FINITE groups, *AUTOMORPHISMS

Abstract

In this paper, we exhibit an infinite family of 2-groups in which each automorphism of G fix G/G' elementwise. [ABSTRACT FROM AUTHOR]

Published

2010

50. Butterflies I: Morphisms of 2-group stacks

Author

Aldrovandi, Ettore and Noohi, Behrang

Subjects

*MORPHISMS (Mathematics), *MATHEMATICAL diagrams, *MODULES (Algebra), *FIBER bundles (Mathematics), *ABELIAN groups, *CATEGORIES (Mathematics)

Abstract

Abstract: Weak morphisms of non-abelian complexes of length 2, or crossed modules, are morphisms of the associated 2-group stacks, or gr-stacks. We present a full description of the weak morphisms in terms of diagrams we call butterflies. We give a complete description of the resulting bicategory of crossed modules, which we show is fibered and biequivalent to the 2-stack of 2-group stacks. As a consequence we obtain a complete characterization of the non-abelian derived category of complexes of length 2. Deligne''s analogous theorem in the case of Picard stacks and abelian sheaves becomes an immediate corollary. Commutativity laws on 2-group stacks are also analyzed in terms of butterflies, yielding new characterizations of braided, symmetric, and Picard 2-group stacks. Furthermore, the description of a weak morphism in terms of the corresponding butterfly diagram allows us to obtain a long exact sequence in non-abelian cohomology, removing a preexisting fibration condition on the coefficients short exact sequence. [Copyright &y& Elsevier]

Published

2009