Folding on the Chaotic Graph Operations and Their Fundamental Group

Filling words in fundamental groups of Riemann surfaces

Studia Scientiarum Mathematicarum Hungarica ◽

10.1556/sscmath.50.2013.1.1227 ◽

2013 ◽

Vol 50 (1) ◽

pp. 31-50

Author(s):

C. Zhang

Keyword(s):

Riemann Surface ◽

Fundamental Group ◽

Riemann Surfaces ◽

Fundamental Groups ◽

Closed Geodesics ◽

New Words

The purpose of this article is to utilize some exiting words in the fundamental group of a Riemann surface to acquire new words that are represented by filling closed geodesics.

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Representations of the fundamental group and the torsor of deformations. Global aspects

10.23943/princeton/9780691170282.003.0003 ◽

2017 ◽

Author(s):

Ahmed Abbes ◽

Michel Gros

Keyword(s):

Fundamental Group ◽

Koszul Complex ◽

Finiteness Conditions ◽

Inverse Systems ◽

Logarithmic Geometry

This chapter continues the construction and study of the p-adic Simpson correspondence and presents the global aspects of the theory of representations of the fundamental group and the torsor of deformations. After fixing the notation and general conventions, the chapter develops preliminaries and then introduces the results and complements on the notion of locally irreducible schemes. It also fixes the logarithmic geometry setting of the constructions and considers a number of results on the Koszul complex. Finally, it develops the formalism of additive categories up to isogeny and describes the inverse systems of a Faltings ringed topos, with a particular focus on the notion of adic modules and the finiteness conditions adapted to this setting. The chapter rounds up the discussion with sections on Higgs–Tate algebras and Dolbeault modules.

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On Hyper-Zagreb Index of Three Graph Operations

Journal of Computer and Mathematical Sciences ◽

10.29055/jcms/1009 ◽

2019 ◽

Vol 10 (2) ◽

pp. 301-309

Author(s):

A. Bharali ◽

Amitav Doley

Keyword(s):

Zagreb Index ◽

Graph Operations

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On the fundamental group of the complement of a complex hyperplane arrangement

Arrangements – Tokyo 1998 ◽

10.2969/aspm/02710257 ◽

2018 ◽

Cited By ~ 4

Author(s):

Luis Paris

Keyword(s):

Fundamental Group ◽

Hyperplane Arrangement ◽

Complex Hyperplane

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The Restricted Arc-Width of a Graph

The Electronic Journal of Combinatorics ◽

10.37236/1734 ◽

2003 ◽

Vol 10 (1) ◽

Author(s):

David Arthur

Keyword(s):

Unit Circle ◽

Single Point ◽

Minimum Width ◽

Graph Operations ◽

Function Mapping

An arc-representation of a graph is a function mapping each vertex in the graph to an arc on the unit circle in such a way that adjacent vertices are mapped to intersecting arcs. The width of such a representation is the maximum number of arcs passing through a single point. The arc-width of a graph is defined to be the minimum width over all of its arc-representations. We extend the work of Barát and Hajnal on this subject and develop a generalization we call restricted arc-width. Our main results revolve around using this to bound arc-width from below and to examine the effect of several graph operations on arc-width. In particular, we completely describe the effect of disjoint unions and wedge sums while providing tight bounds on the effect of cones.

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Some graph operations in multiplicative Zagreb indices

10.1063/5.0025250 ◽

2020 ◽

Author(s):

M. Radhakrishnan ◽

M. Suresh ◽

V. Mohana Selvi

Keyword(s):

Zagreb Indices ◽

Graph Operations

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TOPOLOGICAL 4-MANIFOLDS WITH 4-DIMENSIONAL FUNDAMENTAL GROUP

Glasgow Mathematical Journal ◽

10.1017/s0017089521000215 ◽

2021 ◽

pp. 1-8

Author(s):

DANIEL KASPROWSKI ◽

MARKUS LAND

Keyword(s):

Fundamental Group ◽

Homotopy Equivalent ◽

Poincaré Duality ◽

Poincare Duality ◽

Canonical Map ◽

Duality Space ◽

Simply Connected Manifolds ◽

Simply Connected ◽

Poincaré Duality Space

Abstract Let $\pi$ be a group satisfying the Farrell–Jones conjecture and assume that $B\pi$ is a 4-dimensional Poincaré duality space. We consider topological, closed, connected manifolds with fundamental group $\pi$ whose canonical map to $B\pi$ has degree 1, and show that two such manifolds are s-cobordant if and only if their equivariant intersection forms are isometric and they have the same Kirby–Siebenmann invariant. If $\pi$ is good in the sense of Freedman, it follows that two such manifolds are homeomorphic if and only if they are homotopy equivalent and have the same Kirby–Siebenmann invariant. This shows rigidity in many cases that lie between aspherical 4-manifolds, where rigidity is expected by Borel’s conjecture, and simply connected manifolds where rigidity is a consequence of Freedman’s classification results.

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