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Related papers: Group G_{n}^{3} and imaginary generators

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The aim of the present note is to construct invariants of the Artin braid group valued in $G_{N}^{2}$, and further study of groups related to $G_{n}^{3}$. In the groups $G_{n}^{2}$, the word problem is solved; these groups are much simpler…

Geometric Topology · Mathematics 2016-12-02 Vassily Olegovich Manturov

In this paper, we investigate the structure of the automorphism groups of pure braid groups. We prove that, for $n>3$, $\Aut(P_n)$ is generated by the subgroup $\Aut_c(P_n)$ of central automorphisms of $P_n$, the subgroup $\Aut(B_n)$ of…

Group Theory · Mathematics 2021-07-19 Valeriy G. Bardakov , Mikhail V. Neshchadim , Mahender Singh

The aim of the present note is to enhance groups $G_{n}^{3}$ and to construct new invariants of classical braids. In particular, we construct invariants valued in $G_{N}^{2}$ groups. In groups $G_{n}^{2}$, the identity problem is solved,…

Geometric Topology · Mathematics 2022-08-03 Vassily Olegovich Manturov

We construct a group $\Gamma_{n}^{4}$ corresponding to the motion of points in $\mathbb{R}^{3}$ from the point of view of Delaunay triangulations. We study homomorphisms from pure braids on $n$ strands to the product of copies of…

Geometric Topology · Mathematics 2019-03-11 V. O. Manturov , S. Kim

We define invariants of words in arbitrary groups, measuring how letters in a word are interleaving, perfectly detecting the dimension series of a group. These are the letter-braiding invariants. On free groups, braiding invariants coincide…

Group Theory · Mathematics 2025-02-21 Nir Gadish

We define pseudo-Garside groups and prove a theorem about them parallel to Garside's result on the word problem for the usual braid groups. The main novelty is that the set of simple elements can be infinite. We introduce a group B=B(Z^n)…

Group Theory · Mathematics 2007-05-23 Daan Krammer

In his initial paper on braids E.Artin gave a presentation with two generators for an arbitrary braid group. We give analogues of this Artin's presentation for various generalizations of braids.

Group Theory · Mathematics 2012-02-20 Vladimir Vershinin

Artin's representation is an injective homomorphism from the braid group $B_n$ on $n$ strands into $\operatorname{Aut}\mathbb{F}_n$, the automorphism group of the free group $\mathbb{F}_n$ on $n$ generators. The representation induces maps…

Operator Algebras · Mathematics 2019-04-25 Tron Omland

We consider a certain modification of the group $G^3_n$ which describes dynamics of point configurations, in particular braids, and define a representation of the modified $G^3_n$. The braid representation induced is powerful enough to…

Geometric Topology · Mathematics 2026-02-10 Vassily Olegovich Manturov , Igor Mikhailovich Nikonov

Each pointed topological space has an associated $\pi$-module, obtained from action of its first homotopy group on its second homotopy group. For the $3$-ball with a trivial link with $n$-components removed from its interior, its…

Geometric Topology · Mathematics 2020-03-17 Celeste Damiani , João Faria Martins , Paul Purdon Martin

This note tells you how to construct a k(n)-dimensional family of (isomorphism classes of) irreducible representations of dimension n for the three string braid group B_3, where k(n) is an admissible function of your choosing; for example…

Quantum Algebra · Mathematics 2008-04-06 Lieven Le Bruyn

We define invariants of braids rather than invariants of conjugacy classes of braids. For any pure three-braid we give effective upper and lower bounds for these invariants. This is done in terms of a natural syllable decomposition of the…

Geometric Topology · Mathematics 2023-12-20 Burlind Joricke

From a group $H$ and a non-trivial element $h$ of $H$, we define a representation $\rho: B_n \to \Aut(G)$, where $B_n$ denotes the braid group on $n$ strands, and $G$ denotes the free product of $n$ copies of $H$. Such a representation…

Group Theory · Mathematics 2007-05-23 John Crisp , Luis Paris

We present an algorithm to generate positive braids of a given length as words in Artin generators with a uniform probability. The complexity of this algorithm is polynomial in the number of strands and in the length of the generated…

Group Theory · Mathematics 2012-07-24 Volker Gebhardt , Juan González-Meneses

In \cite{Manturov} the second author defined the $k$-free braid group with $n$ strands $G_{n}^{k}$. These groups appear naturally as groups describing dynamical systems of $n$ particles in some "general position". Moreover, in…

Geometric Topology · Mathematics 2016-06-15 S. Kim , V. O. Manturov

We give an explicit geometric argument that Artin's braid group $B_n$ is right-orderable. The construction is elementary, natural, and leads to a new, effectively computable, canonical form for braids which we call left-consistent canonical…

Geometric Topology · Mathematics 2016-09-07 Roger Fenn , Michael T Greene , Dale Rolfsen , Colin Rourke , Bert Wiest

We ask if any finite type generalized braid group is a subgroup of some classical Artin braid group. We define a natural map from a given finite type generalized braid group to a classical braid group and ask if this map is an injective…

Group Theory · Mathematics 2007-05-23 S. K. Roushon

In the paper we give a survey of rather new notions and results which generalize classical ones in the theory of braids. Among such notions are various inverse monoids of partial braids. We also observe presentations different from standard…

Group Theory · Mathematics 2013-04-30 Vladimir V. Vershinin

Garside groups are combinatorial generalizations of braid groups which enjoy many nice algebraic, geometric, and algorithmic properties. In this article we propose a method for turning the direct product of a group $G$ by $\mathbb{Z}$ into…

Group Theory · Mathematics 2024-10-17 Thomas Haettel , Jingyin Huang

The braid group $B_{n}$, endowed with Artin's presentation, admits an antiautomorphism $B_{n} \to B_{n}$, such that $v \mapsto \bar{v}$ is defined by reading braids in reverse order (from right to left instead of left to right). We prove…

Geometric Topology · Mathematics 2007-05-23 F. Deloup , D. Garber , S. Kaplan , M. Teicher
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