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Displaying 21 – 40 of 2182

A combinatorial proof of the extension property for partial isometries

Jan Hubička, Matěj Konečný, Jaroslav Nešetřil (2019)

Commentationes Mathematicae Universitatis Carolinae

We present a short and self-contained proof of the extension property for partial isometries of the class of all finite metric spaces.

A computer algebra solution to a problem in finite groups.

Gert-Martin Greuel (2003)

Revista Matemática Iberoamericana

We report on a partial solution of the conjecture that the class of finite solvable groups can be characterised by 2-variable identities. The proof requires pieces from number theory, algebraic geometry, singularity theory and computer algebra. The computations were carried out using the computer algebra system SINGULAR.

A cyclically pinched product of free groups which is not residually free.

F. Levin, G. Rosenberger, B. Baumslag (1993)

Mathematische Zeitschrift

A family of totally ordered groups with some special properties

Elena Olivos (2005)

Annales mathématiques Blaise Pascal

Let $K$ be a field with a Krull valuation $| |$ and value group $G \neq {1}$ , and let $B_{K}$ be the valuation ring. Theories about spaces of countable type and Hilbert-like spaces in [1] and spaces of continuous linear operators in [2] require that all absolutely convex subsets of the base field $K$ should be countably generated as $B_{K}$ -modules.By [1] Prop. 1.4.1, the field $K$ is metrizable if and only if the value group $G$ has a cofinal sequence. We prove that for any fixed cardinality $ℵ_{κ}$ , there exists a metrizable field $K$ ...

A Finitely Presented Solvable Group that is not Residually Finite.

Gilbert Baumslag (1973)

Mathematische Zeitschrift

A finiteness condition on automorphism groups

Federico Menegazzo, Derek J. S. Robinson (1987)

Rendiconti del Seminario Matematico della Università di Padova

A finiteness property and an automatic structure for Coxeter groups.

Brigitte Brink, Robert B. Howlett (1993)

Mathematische Annalen

A flat plane that is not the limit of periodic flat planes.

Wise, Daniel T. (2003)

Algebraic & Geometric Topology

A free group acting without fixed points on the rational unit sphere

Kenzi Satô (1995)

Fundamenta Mathematicae

A Garside presentation for Artin-Tits groups of type ${\tilde{C}}_{n}$

F. Digne (2012)

Annales de l’institut Fourier

We prove that an Artin-Tits group of type $\tilde{C}$ is the group of fractions of a Garside monoid, analogous to the known dual monoids associated with Artin-Tits groups of spherical type and obtained by the “generated group” method. This answers, in this particular case, a general question on Artin-Tits groups, gives a new presentation of an Artin-Tits group of type $\tilde{C}$ , and has consequences for the word problem, the computation of some centralizers or the triviality of the center. A key point of the proof...

A Gel'fand model for a Weyl group of type $B_{n}$ .

Araujo, J.O. (2003)

Beiträge zur Algebra und Geometrie

A generalization of a theorem of A. D. Otto.

Exarchakos, Th. (1983)

Publications de l'Institut Mathématique. Nouvelle Série

A generalized Hopf formula for higher homology groups.

Ralph Stöhr (1989)

Commentarii mathematici Helvetici

A geometric approach to the almost convexity and growth of some nilpotent groups.

Michael Shapiro (1989)

Mathematische Annalen

A geometric invariant for modules over an Abelian group.

Robert Bieri, Ralph Strebel (1981)

Journal für die reine und angewandte Mathematik

A geometric invariant of discrete groups.

W.D. Neumann, R. Bieri, R. Strebel (1987)

Inventiones mathematicae

A geometric study of Fibonacci groups.

Helling, H., Kim, A.C., Mennicke, J.L. (1998)

Journal of Lie Theory

A Geometrical Construction for the Polynomial Invariants of some Reflection Groups

Sarti, Alessandra (2005)

Serdica Mathematical Journal

2000 Mathematics Subject Classification: Primary 20F55, 13F20; Secondary 14L30.We construct invariant polynomials for the reflection groups [3, 4, 3] and [3, 3, 5] by using some special sets of lines on the quadric P1 × P1 in P3. Then we give a simple proof of the well known fact that the ring of invariants are rationally generated in degree 2,6,8,12 and 2,12,20,30.

A group theoretical model for mass-splitting

C. von Westenholz (1971)

Annales de l'I.H.P. Physique théorique

A Jones polynomial for braid-like isotopies of oriented links and its categorification.

Audoux, Benjamin, Fiedler, Thomas (2005)

Algebraic & Geometric Topology

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