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Difference between revisions of "Fibonacci group"

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The Fibonacci group <img align="absmiddle" border="0" src="https://www.encyclopediaofmath.org/legacyimages/f/f130/f130070/f1300701.png" /> has the presentation (cf. also [[Finitely-presented group|Finitely-presented group]]; [[Presentation|Presentation]]):
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The Fibonacci group $F(2,m)$ has the presentation (cf. also [[Finitely-presented group|Finitely-presented group]]; [[Presentation|Presentation]]):
  
 
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<table class="eq" style="width:100%;"> <tr><td valign="top" style="width:94%;text-align:center;"><img align="absmiddle" border="0" src="https://www.encyclopediaofmath.org/legacyimages/f/f130/f130070/f1300702.png" /></td> </tr></table>

Revision as of 18:13, 16 March 2012

The Fibonacci group $F(2,m)$ has the presentation (cf. also Finitely-presented group; Presentation):

where indices are taken modulo .

Fibonacci groups were introduced by J.H. Conway [a2] and are related to the Fibonacci numbers with inductive definition (with as initial ones).

Several combinatorial studies (see [a1] for references) answered some questions on , including their non-triviality and finiteness: is finite only for . H. Helling, A.C. Kim and J. Mennicke [a3] provided a geometrization of , by showing that the groups , , are the fundamental groups of certain closed orientable three-manifolds (so-called Fibonacci manifolds, denoted by ). See also Fibonacci manifold. In fact, for , , where is a closed hyperbolic three-manifold; , where is the Euclidean Hantzche–Wendt manifold; , with a lens space.

This and properties of the fundamental groups of these three-manifolds imply that are Noetherian groups, i.e. every finitely-generated subgroup of is finitely presented (cf. also Noetherian group). Since is an affine Riemannian manifold, is a torsion-free finite extension of . Due to hyperbolicity for (cf. also Hyperbolic group), the are torsion-free, their Abelian subgroups are cyclic (cf. also Cyclic group), there are explicit imbeddings , and the word and conjugacy problems are solvable for them (cf. also Group calculus; Identity problem). Also, the groups , , are arithmetic if and only if ; see [a3], [a4] and Arithmetic group.

There are several generalizations of Fibonacci groups, related to generalizations of Fibonacci numbers. D.L. Johnson [a5] has introduced the generalized Fibonacci groups (see [a9] for a survey)

where indices are taken modulo . Another generalization of Fibonacci groups is due to C. Maclachlan [a7] (see [a8] for their geometrization):

Fractional Fibonacci groups were introduced by A.C. Kim and A. Vesnin in [a6] (which contains their geometrization as well):

References

[a1] C.M. Campbell, "Topics in the theory of groups" , Notes on Pure Math. , I , Pusan Nat. Univ. (1985)
[a2] J.H. Conway, "Advanced problem 5327" Amer. Math. Monthly , 72 (1965) pp. 915
[a3] H. Helling, A.C. Kim, J. Mennicke, "A geometric study of Fibonacci groups" J. Lie Theory , 8 (1998) pp. 1–23
[a4] H.M. Hilden, M.T. Lozano, J.M. Montesinos, "The arithmeticity of the figure-eight knot orbifolds" B. Apanasov (ed.) W. Neumann (ed.) A. Reid (ed.) L. Siebenmann (ed.) , Topology'90 , de Gruyter (1992) pp. 169–183
[a5] D.L. Johnson, "Extensions of Fibonacci groups" Bull. London Math. Soc. , 7 (1974) pp. 101–104
[a6] A.C. Kim, A. Vesnin, "The fractional Fibonacci groups and manifolds" Sib. Math. J. , 38 (1997) pp. 655–664
[a7] C. Maclachlan, "Generalizations of Fibonacci numbers, groups and manifolds" , Combinatorial and Geometric Group Theory (1993) , Lecture Notes , 204 , London Math. Soc. (1995) pp. 233–238
[a8] C. Maclachlan, A.W. Reid, "Generalized Fibonacci manifolds" Transformation Groups , 2 (1997) pp. 165–182
[a9] R.M. Thomas, "The Fibonacci groups revisited" C.M. Campbell (ed.) E.F. Robertson (ed.) , Groups II (St. Andrews, 1989) , Lecture Notes , 160 , London Math. Soc. (1991) pp. 445–456
How to Cite This Entry:
Fibonacci group. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Fibonacci_group&oldid=15181
This article was adapted from an original article by Boris N. Apanasov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article