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In [[group theory]], a '''hyperbolic group''', also known as a ''word hyperbolic group'', ''Gromov hyperbolic group'', ''negatively curved group'' is a finitely generated [[group (mathematics)|group]] equipped with a [[word metric]] satisfying certain properties characteristic of [[hyperbolic geometry]]. The notion of a hyperbolic group was introduced and developed by [[Mikhail Gromov (mathematician)|Mikhail Gromov]] in the early 1980s. He noticed that many results of [[Max Dehn]] concerning the [[fundamental group]] of a hyperbolic [[Riemann surface]] do not rely either on it having dimension two or even on being a [[manifold]] and hold in much more general context. In a very influential paper from 1987, Gromov proposed a wide-ranging research program. Ideas and foundational material in the theory of hyperbolic groups also stem from the work of [[George Mostow]], [[William Thurston]], [[James W. Cannon]], [[Eliyahu Rips]], and many others. | |||
== Definitions == | |||
Hyperbolic groups can be defined in several different ways. Many definitions use the [[Cayley graph]] of the group and involve a choice of a positive constant δ and first define a ''δ-hyperbolic group''. A group is called ''hyperbolic'' if it is δ-hyperbolic for some δ. When translating between different definitions of hyperbolicity, the particular value of δ may change, but the resulting notions of a hyperbolic group turn out to be equivalent. | |||
Let ''G'' be a finitely generated group, and ''T'' be its [[Cayley graph]] with respect to some finite set ''S'' of generators. By identifying each edge isometrically with the unit interval in '''R''', the Cayley graph becomes a [[metric space]]. The group ''G'' acts on ''T'' by [[isometry|isometries]] and this action is simply transitive on the vertices. A path in ''T'' of minimal length that connects points ''x'' and ''y'' is called a ''geodesic segment'' and is denoted [''x'',''y'']. A ''geodesic triangle'' in ''T'' consists of three points ''x'', ''y'', ''z'', its ''vertices'', and three geodesic segments [''x'',''y''], [''y'',''z''], [''z'',''x''], its ''sides''. | |||
{{ Annotated image | caption=The δ-slim triangle condition | |||
| image= Delta thin triangle condition.svg| | |||
| width=230 | |||
| height = 155 | |||
| image-width = 200 | |||
| image-left = 30 | |||
| annotations = | |||
{{Annotation|105|12|<math>x</math>}} | |||
{{Annotation|45|105|<math>y</math>}} | |||
{{Annotation|205|110|<math>z</math>}} | |||
{{Annotation|0|40|<math>B_\delta([x,y])</math>}} | |||
{{Annotation|150|40|<math>B_\delta([z,x])</math>}} | |||
{{Annotation|80|135|<math>B_\delta([y,z])</math>}} | |||
}} | |||
The first approach to hyperbolicity is based on the ''slim triangles'' condition and is generally credited to Rips. Let δ > 0 be fixed. A geodesic triangle is '''δ-slim''' if each side is contained in a <math>\delta</math>-neighborhood of the other two sides: | |||
:::<math>[x,y] \subseteq B_{\delta}([y,z]\cup[z,x]),</math> | |||
:::<math>[y,z]\subseteq B_{\delta}([z,x]\cup[x,y]),</math> | |||
:::<math>[z,x]\subseteq B_{\delta}([x,y]\cup[y,z]). </math> | |||
The Cayley graph ''T'' is '''δ-hyperbolic''' if all geodesic triangles are δ-slim, and in this case ''G'' is a ''δ-hyperbolic group''. Although a different choice of a finite generating set will lead to a different Cayley graph and hence to a different condition for ''G'' to be δ-hyperbolic, it is known that the notion of ''hyperbolicity'', for some value of δ is actually independent of the generating set. In the language of metric geometry, it is invariant under [[quasi-isometry|quasi-isometries]]. Therefore, the property of being a hyperbolic group depends only on the group itself. | |||
=== Remark === | |||
By imposing the slim triangles condition on geodesic metric spaces in general, one arrives at the more general notion of [[Δ-hyperbolic space|<math>\delta</math>-hyperbolic space]]. Hyperbolic groups can be characterized as groups ''G'' which admit an isometric properly discontinuous action on a proper geodesic Δ-hyperbolic space ''X'' such that the factor-space ''X''/''G'' has finite diameter. | |||
== Examples of hyperbolic groups == | |||
* [[Finite group]]s. | |||
* [[Virtually cyclic group]]s. | |||
* [[Finitely generated group|Finitely generated]] [[free group]]s, and more generally, groups that [[group action|act]] on a locally finite [[tree (graph theory)|tree]] with finite stabilizers. | |||
* Most ''[[surface]] groups'' are hyperbolic, namely, the [[fundamental group]]s of surfaces with negative [[Euler characteristic]]. For example, the fundamental group of the sphere with two handles (the surface of [[genus (topology)|genus]] two) is a hyperbolic group. | |||
* Most [[triangle group]]s <math>\Delta(l,m,n)</math> are hyperbolic, namely, those for which 1/''l'' + 1/''m'' + 1/''n'' < 1, such as the [[(2,3,7) triangle group]]. | |||
* The fundamental groups of compact [[Riemannian manifold]]s with strictly negative [[sectional curvature]]. | |||
* Groups that act [[cocompact]]ly and properly discontinuously on a proper [[CAT(k) space]] with ''k'' < 0. This class of groups includes all the preceding ones as special cases. It also leads to many examples of hyperbolic groups not related to trees or manifolds. | |||
* In some sense, "most" finitely presented groups with large defining relations are hyperbolic. See [[Random group]]. | |||
== Examples of non-hyperbolic groups == | |||
* The [[free abelian group|free rank 2 abelian group]] '''Z'''<sup>2</sup> is not hyperbolic. | |||
* More generally, any group which contains '''Z'''<sup>2</sup> as a [[subgroup]] is not hyperbolic.<ref>Ghys and de la Harpe, Ch. 8, Th. 37; Bridson and [[André Haefliger|Haefliger]], Chapter 3.Γ, Corollary 3.10.</ref> In particular, [[lattice (discrete subgroup)|lattices]] in higher rank [[semisimple Lie group]]s and the [[fundamental group]]s ''π''<sub>1</sub>(''S''<sup>3</sup>−''K'') of nontrivial [[knot (mathematics)|knot]] complements fall into this category and therefore are not hyperbolic. | |||
* [[Baumslag–Solitar group]]s ''B''(''m'',''n'') and any group that contains a subgroup isomorphic to some ''B''(''m'',''n'') fail to be hyperbolic (since ''B''(1,1) = '''Z'''<sup>2</sup>, this generalizes the previous example). | |||
* A non-uniform lattice in rank 1 semisimple Lie groups is hyperbolic if and only if the associated symmetric space is the hyperbolic plane. | |||
== Homological characterization == | |||
In 2002, I. Mineyev showed that hyperbolic groups are exactly those finitely generated groups for which the comparison map between the [[bounded cohomology]] and [[Group cohomology|ordinary cohomology]] is surjective in all degrees, or equivalently, in degree 2. | |||
== Properties == | |||
Hyperbolic groups have a solvable [[word problem for groups|word problem]]. They are [[biautomatic group|biautomatic]] and [[automatic group|automatic]].:<ref name=charney>{{citation | last=Charney | first=Ruth | title=Artin groups of finite type are biautomatic | journal=Mathematische Annalen | volume= 292 | year=1992 | doi=10.1007/BF01444642 | pages=671–683}}</ref> indeed, they are [[automatic group|strongly geodesically automatic]], that is, there is an automatic structure on the group, where the language accepted by the word acceptor is the set of all geodesic words. | |||
In a 2010 paper,<ref>Dahmani, F.; Guirardel, V. - On the Isomorphism Problem in all Hyperbolic Groups, arXiV: [http://arxiv.org/abs/1002.2590 1002.2590]</ref> it was shown that hyperbolic groups have a [[decidable]] marked isomorphism problem. It is notable that this means that the isomorphism problem, orbit problems (in particular the conjugacy problem) and Whitehead's problem are all decidable. | |||
Cannon and Swenson have shown <ref name="CS">J. W. Cannon and E. L. Swenson, ''Recognizing constant curvature discrete groups in dimension 3''. [[Transactions of the American Mathematical Society]] 350 (1998), no. 2, pp. 809–849.</ref> that hyperbolic groups with a 2-sphere at infinity have a natural [[finite subdivision rule|subdivision rule]]. This is related to [[James W. Cannon|Cannon's Conjecture]]. | |||
== Generalizations == | |||
{{main|Relatively hyperbolic group}} | |||
An important generalization of hyperbolic groups in [[geometric group theory]] is the notion of a [[relatively hyperbolic group]]. Motivating examples for this generalization are given by the fundamental groups of non-compact hyperbolic manifolds of finite volume, in particular, the fundamental groups of [[hyperbolic knot]]s, which are not hyperbolic in the sense of Gromov. | |||
A group ''G'' is '''relatively hyperbolic''' with respect to a subgroup ''H'' if, after contracting the Cayley graph of ''G'' along ''H''-[[coset]]s, the resulting graph equipped with the usual graph metric is a [[δ-hyperbolic space]] and, moreover, it satisfies an additional technical condition which implies that quasi-geodesics with common endpoints travel through approximately the same collection of cosets and enter and exit these cosets in approximately the same place. | |||
== Notes == | |||
<references/> | |||
== References == | |||
* [[Mikhail Gromov (mathematician)|Mikhail Gromov]], ''Hyperbolic groups.'' Essays in group theory, 75–263, Math. Sci. Res. Inst. Publ., 8, Springer, New York, 1987. | |||
* {{cite book | |||
| last = Bridson | |||
| first = Martin R. | |||
| coauthors = Haefliger, André | |||
| title = Metric spaces of non-positive curvature | |||
| series = Grundlehren der Mathematischen Wissenschaften 319 | |||
| publisher = Springer-Verlag | |||
| location = Berlin | |||
| year = 1999 | |||
| isbn = 3-540-64324-9 | |||
| nopp = true | |||
| page = xxii+643 | |||
}} {{MathSciNet|id=1744486}} | |||
* Igor Mineyev, ''Bounded cohomology characterizes hyperbolic groups.'', Quart. J. Math. Oxford Ser., 53(2002), 59-73. | |||
== Further reading == | |||
* É. Ghys and P. de la Harpe (editors), ''Sur les groupes hyperboliques d'après Mikhael Gromov.'' Progress in Mathematics, 83. Birkhäuser Boston, Inc., Boston, MA, 1990. xii+285 pp. ISBN 0-8176-3508-4 | |||
* Michel Coornaert, Thomas Delzant and Athanase Papadopoulos, "Géométrie et théorie des groupes : les groupes hyperboliques de Gromov", Lecture Notes in Mathematics, vol. 1441, Springer-Verlag, Berlin, 1990, x+165 pp. MR 92f:57003, ISBN 3-540-52977-2 | |||
* Michel Coornaert and Athanase Papadopoulos, Symbolic dynamics and hyperbolic groups. Lecture Notes in Mathematics. 1539. Springer-Verlag, Berlin, 1993, viii+138 pp. ISBN 3-540-56499-3 | |||
* {{springer|title=Gromov hyperbolic space|id=p/g110240}} | |||
[[Category:Geometric group theory]] | |||
[[Category:Metric geometry]] | |||
[[Category:Properties of groups]] | |||
[[Category:Combinatorics on words]] | |||
Revision as of 12:36, 31 January 2014
In group theory, a hyperbolic group, also known as a word hyperbolic group, Gromov hyperbolic group, negatively curved group is a finitely generated group equipped with a word metric satisfying certain properties characteristic of hyperbolic geometry. The notion of a hyperbolic group was introduced and developed by Mikhail Gromov in the early 1980s. He noticed that many results of Max Dehn concerning the fundamental group of a hyperbolic Riemann surface do not rely either on it having dimension two or even on being a manifold and hold in much more general context. In a very influential paper from 1987, Gromov proposed a wide-ranging research program. Ideas and foundational material in the theory of hyperbolic groups also stem from the work of George Mostow, William Thurston, James W. Cannon, Eliyahu Rips, and many others.
Definitions
Hyperbolic groups can be defined in several different ways. Many definitions use the Cayley graph of the group and involve a choice of a positive constant δ and first define a δ-hyperbolic group. A group is called hyperbolic if it is δ-hyperbolic for some δ. When translating between different definitions of hyperbolicity, the particular value of δ may change, but the resulting notions of a hyperbolic group turn out to be equivalent.
Let G be a finitely generated group, and T be its Cayley graph with respect to some finite set S of generators. By identifying each edge isometrically with the unit interval in R, the Cayley graph becomes a metric space. The group G acts on T by isometries and this action is simply transitive on the vertices. A path in T of minimal length that connects points x and y is called a geodesic segment and is denoted [x,y]. A geodesic triangle in T consists of three points x, y, z, its vertices, and three geodesic segments [x,y], [y,z], [z,x], its sides.
Template:Annotated image The first approach to hyperbolicity is based on the slim triangles condition and is generally credited to Rips. Let δ > 0 be fixed. A geodesic triangle is δ-slim if each side is contained in a -neighborhood of the other two sides:
![{\displaystyle [x,y]\subseteq B_{\delta }([y,z]\cup [z,x]),}](https://wikimedia.org/api/rest_v1/media/math/render/svg/da8c90e238817692191573376e0de174a679524c)
![{\displaystyle [y,z]\subseteq B_{\delta }([z,x]\cup [x,y]),}](https://wikimedia.org/api/rest_v1/media/math/render/svg/9e21718be4934eef1f8bd2261f302adc79e9bb8e)
![{\displaystyle [z,x]\subseteq B_{\delta }([x,y]\cup [y,z]).}](https://wikimedia.org/api/rest_v1/media/math/render/svg/8abbe8c39d5402d25a5cbddc85692a0119140db6)
The Cayley graph T is δ-hyperbolic if all geodesic triangles are δ-slim, and in this case G is a δ-hyperbolic group. Although a different choice of a finite generating set will lead to a different Cayley graph and hence to a different condition for G to be δ-hyperbolic, it is known that the notion of hyperbolicity, for some value of δ is actually independent of the generating set. In the language of metric geometry, it is invariant under quasi-isometries. Therefore, the property of being a hyperbolic group depends only on the group itself.
Remark
By imposing the slim triangles condition on geodesic metric spaces in general, one arrives at the more general notion of -hyperbolic space. Hyperbolic groups can be characterized as groups G which admit an isometric properly discontinuous action on a proper geodesic Δ-hyperbolic space X such that the factor-space X/G has finite diameter.
Examples of hyperbolic groups
- Finite groups.
- Virtually cyclic groups.
- Finitely generated free groups, and more generally, groups that act on a locally finite tree with finite stabilizers.
- Most surface groups are hyperbolic, namely, the fundamental groups of surfaces with negative Euler characteristic. For example, the fundamental group of the sphere with two handles (the surface of genus two) is a hyperbolic group.
- Most triangle groups are hyperbolic, namely, those for which 1/l + 1/m + 1/n < 1, such as the (2,3,7) triangle group.
- The fundamental groups of compact Riemannian manifolds with strictly negative sectional curvature.
- Groups that act cocompactly and properly discontinuously on a proper CAT(k) space with k < 0. This class of groups includes all the preceding ones as special cases. It also leads to many examples of hyperbolic groups not related to trees or manifolds.
- In some sense, "most" finitely presented groups with large defining relations are hyperbolic. See Random group.
Examples of non-hyperbolic groups
- The free rank 2 abelian group Z2 is not hyperbolic.
- More generally, any group which contains Z2 as a subgroup is not hyperbolic.[1] In particular, lattices in higher rank semisimple Lie groups and the fundamental groups π1(S3−K) of nontrivial knot complements fall into this category and therefore are not hyperbolic.
- Baumslag–Solitar groups B(m,n) and any group that contains a subgroup isomorphic to some B(m,n) fail to be hyperbolic (since B(1,1) = Z2, this generalizes the previous example).
- A non-uniform lattice in rank 1 semisimple Lie groups is hyperbolic if and only if the associated symmetric space is the hyperbolic plane.
Homological characterization
In 2002, I. Mineyev showed that hyperbolic groups are exactly those finitely generated groups for which the comparison map between the bounded cohomology and ordinary cohomology is surjective in all degrees, or equivalently, in degree 2.
Properties
Hyperbolic groups have a solvable word problem. They are biautomatic and automatic.:[2] indeed, they are strongly geodesically automatic, that is, there is an automatic structure on the group, where the language accepted by the word acceptor is the set of all geodesic words.
In a 2010 paper,[3] it was shown that hyperbolic groups have a decidable marked isomorphism problem. It is notable that this means that the isomorphism problem, orbit problems (in particular the conjugacy problem) and Whitehead's problem are all decidable.
Cannon and Swenson have shown [4] that hyperbolic groups with a 2-sphere at infinity have a natural subdivision rule. This is related to Cannon's Conjecture.
Generalizations
Mining Engineer (Excluding Oil ) Truman from Alma, loves to spend time knotting, largest property developers in singapore developers in singapore and stamp collecting. Recently had a family visit to Urnes Stave Church. An important generalization of hyperbolic groups in geometric group theory is the notion of a relatively hyperbolic group. Motivating examples for this generalization are given by the fundamental groups of non-compact hyperbolic manifolds of finite volume, in particular, the fundamental groups of hyperbolic knots, which are not hyperbolic in the sense of Gromov.
A group G is relatively hyperbolic with respect to a subgroup H if, after contracting the Cayley graph of G along H-cosets, the resulting graph equipped with the usual graph metric is a δ-hyperbolic space and, moreover, it satisfies an additional technical condition which implies that quasi-geodesics with common endpoints travel through approximately the same collection of cosets and enter and exit these cosets in approximately the same place.
Notes
- ↑ Ghys and de la Harpe, Ch. 8, Th. 37; Bridson and Haefliger, Chapter 3.Γ, Corollary 3.10.
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To achieve the very best outcomes, you must be always updated on market situations, including past transaction information and reliable projections. You could review and examine comparable homes that are currently available in the market, especially these which have been sold or not bought up to now six months. You'll be able to see a pattern of such report by clicking here It's essential to defend yourself in opposition to unscrupulous patrons. They are often very skilled in using highly unethical and manipulative techniques to try and lure you into a lure. That you must also protect your self, your loved ones, and personal belongings as you'll be serving many strangers in your home. Sign a listing itemizing of all of the objects provided by the proprietor, together with their situation. HSR Prime Recruiter 2010 - ↑ Dahmani, F.; Guirardel, V. - On the Isomorphism Problem in all Hyperbolic Groups, arXiV: 1002.2590
- ↑ J. W. Cannon and E. L. Swenson, Recognizing constant curvature discrete groups in dimension 3. Transactions of the American Mathematical Society 350 (1998), no. 2, pp. 809–849.
References
- Mikhail Gromov, Hyperbolic groups. Essays in group theory, 75–263, Math. Sci. Res. Inst. Publ., 8, Springer, New York, 1987.
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- Igor Mineyev, Bounded cohomology characterizes hyperbolic groups., Quart. J. Math. Oxford Ser., 53(2002), 59-73.
Further reading
- É. Ghys and P. de la Harpe (editors), Sur les groupes hyperboliques d'après Mikhael Gromov. Progress in Mathematics, 83. Birkhäuser Boston, Inc., Boston, MA, 1990. xii+285 pp. ISBN 0-8176-3508-4
- Michel Coornaert, Thomas Delzant and Athanase Papadopoulos, "Géométrie et théorie des groupes : les groupes hyperboliques de Gromov", Lecture Notes in Mathematics, vol. 1441, Springer-Verlag, Berlin, 1990, x+165 pp. MR 92f:57003, ISBN 3-540-52977-2
- Michel Coornaert and Athanase Papadopoulos, Symbolic dynamics and hyperbolic groups. Lecture Notes in Mathematics. 1539. Springer-Verlag, Berlin, 1993, viii+138 pp. ISBN 3-540-56499-3
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