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Related papers: One-relator Sasakian groups

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We prove that a one-relator group $G$ is K\"ahler if and only if either $G$ is finite cyclic or $G$ is isomorphic to the fundamental group of a compact orbifold Riemann surface of genus $g > 0$ with at most one cone point of order $n$: $$<…

Geometric Topology · Mathematics 2014-11-11 Indranil Biswas , Mahan Mj

We study the fundamental groups of compact Sasakian manifolds, which we call Sasaki groups. It is shown that all known K$\ddot{a}$hler groups are Sasaki, in particular, all finite groups are Sasaki. On the other hand, we show there exists…

Geometric Topology · Mathematics 2011-10-13 Xiaoyang Chen

We prove that a compact nilmanifold admits a Sasakian structure if and only if it is a compact quotient of the generalized Heisenberg group of odd dimension by a co-compact discrete subgroup.

Differential Geometry · Mathematics 2015-08-25 Beniamino Cappelletti-Montano , Antonio De Nicola , Juan Carlos Marrero , Ivan Yudin

We associate to each finite presentation of a group G a compact CW-complex that is a 3-manifold in the complement of a point, and whose fundamental group is isomorphic to G. We use this complex to define a notion of genus for G and give…

Group Theory · Mathematics 2011-12-01 Iain Aitchison , Lawrence Reeves

Let $ 1 \rightarrow N \rightarrow G \rightarrow Q \rightarrow 1$ be an exact sequence of finitely presented groups where Q is infinite and not virtually cyclic, and is the fundamental group of some closed 3-manifold. If G is Kaehler, we…

Geometric Topology · Mathematics 2012-12-14 Indranil Biswas , Mahan Mj , Harish Seshadri

A one-relator group is a group $G_r$ that admits a presentation $\langle S \mid r \rangle$ with a single relation $r$. One-relator groups form a rich classically studied class of groups in Geometric Group Theory. If $r \in F(S)'$, the…

Geometric Topology · Mathematics 2022-10-19 Nicolaus Heuer , Clara Loeh

We prove that a compact Sasakian manifolds whose first and second basic Chern classes vanish is locally isomorphic to the real Heisenberg group equipped with the standard left invariant Sasakian structure up to deformation associated to a…

Differential Geometry · Mathematics 2023-10-20 Indranil Biswas , Hisashi Kasuya

How different is the universal cover of a given finite 2-complex from a 3-manifold (from the proper homotopy viewpoint)? Regarding this question, we recall that a finitely presented group $G$ is said to be properly 3-realizable if there…

Geometric Topology · Mathematics 2009-10-05 M. Cárdenas , F. F. Lasheras , A. Quintero , D. Repovš

A one-relator surface group is the quotient of an orientable surface group by the normal closure of a single relator. A Magnus subgroup is the fundamental group of a suitable incompressible sub-surface. A number of results are proved about…

Group Theory · Mathematics 2010-12-14 James Howie , Muhammad Sarwar Saeed

We will say that a group G possesses the Magnus property if for any two elements u,v in G with the same normal closure, u is conjugate to v or v^{-1}. We prove that some one-relator groups, including the fundamental groups of closed…

Group Theory · Mathematics 2009-04-21 Oleg Bogopolski , Konstantin Sviridov

We study fundamental groups of non compact Riemannian manifolds. We find conditions which ensure that the fundamental group is trivial, finite or finitely generated.

Differential Geometry · Mathematics 2007-05-23 Nader Yeganefar

Let $G$ be a locally compact topological group, $G_0$ the connected component of its identity element, and comp(G) the union of all compact subgroups. A topological group will be called inductively monothetic if any subgroup generated (as a…

Group Theory · Mathematics 2016-04-21 Hatem Hamrouni , Karl H. Hofmann

Let S be a surface of genus g with n points removed, G a connected Lie group, and X(G) the moduli space of representations of the fundamental group of S into G. We compute the fundamental group of X(G) when n>0 and G is a real or complex…

Algebraic Geometry · Mathematics 2015-09-22 Indranil Biswas , Sean Lawton

The spectrum $\omega(G)$ of a finite group $G$ is the set of element orders of $G$. Finite groups $G$ and $H$ are isospectral if their spectra coincide. Suppose that $L$ is a simple classical group of sufficiently large dimension (the lower…

Group Theory · Mathematics 2014-10-30 Andrey Vasil'ev

We show that the fundamental group of every enumeratively rationally connected closed symplectic manifold is finite. In other words, if a closed symplectic manifold has a non-zero Gromov-Witten invariant with two point insertions, then it…

Symplectic Geometry · Mathematics 2025-08-28 Alex Pieloch

We study finite G-sets and their tensor product with Riemannian manifolds, and obtain results on isospectral quotients and covers. In particular, we show the following: if M is a compact connected Riemannian manifold (or orbifold) whose…

Group Theory · Mathematics 2014-09-05 Ori Parzanchevski

A compact complex manifold $X$ is called elliptically connected if any pair of points in $X$ can be connected by a chain of elliptic or rational curves. We prove that the fundamental group of an elliptically connected compact complex…

alg-geom · Mathematics 2016-08-30 K. Oguiso , M. Zaidenberg

We prove that if $G$ is a finite simple group which is the unit group of a ring, then $G$ is isomorphic to either (a) a cyclic group of order 2; (b) a cyclic group of prime order $2^k -1$ for some $k$; or (c) a projective special linear…

Rings and Algebras · Mathematics 2015-02-02 Christopher Davis , Tommy Occhipinti

We prove that if the fundamental group of an arbitrary three-manifold -- not necessarily closed, nor orientable -- is a Kaehler group, then it is either finite or the fundamental group of a closed orientable surface.

Geometric Topology · Mathematics 2014-01-14 D. Kotschick

A relative one-relator presentation has the form P = < X,H ; R > where X is a set, H is a group, and R is a group word on X and H. We show that if the group word on X obtained from R by deleting all the terms from H has what we call the…

Group Theory · Mathematics 2007-06-25 Stephen J Pride
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