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On the distribution of orbits of geometrically finite hyperbolic groups on the boundary

Published online by Cambridge University Press:  05 April 2011

SEONHEE LIM  and
HEE OH
SEONHEE LIM
Affiliation:
Department of Mathematics, Seoul National University, Seoul 151-747, Korea (email: [email protected])
HEE OH
Affiliation:
Mathematics Department, Brown University, Providence, RI, USA (email: [email protected]) Korea Institute for Advanced Study, Seoul, Korea
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Abstract

We investigate the distribution of orbits of a non-elementary discrete hyperbolic subgroup Γ acting on ℍn and its geometric boundary (ℍn). In particular, we show that if Γ admits a finite Bowen–Margulis–Sullivan measure (for instance, if Γ is geometrically finite), then every Γ-orbit in (ℍn) is equidistributed with respect to the Patterson–Sullivan measure supported on the limit set Λ(Γ). The appendix by Maucourant is the extension of a part of his PhD thesis where he obtains the same result as a simple application of Roblin’s theorem. Our approach is via establishing the equidistribution of solvable flows on the unit tangent bundle of Γ∖ℍn, which is of independent interest.

Type
Research Article
Information
Ergodic Theory and Dynamical Systems , Volume 32 , Issue 1 , February 2012 , pp. 173 - 189
Copyright
Copyright © Cambridge University Press 2011

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References

[1]Ballmann, W.. Lectures on spaces of nonpositive curvature. DMV Seminar, Band 25. Birkhäuser, Basel, 1995.Google Scholar
[2]Bartels, H.-J.. Nichteuklidische Gitterpunktprobleme und Gleichverteilung in linearen algebraischen Gruppen. Comment. Math. Helv. 57(1) (1982), 158172.CrossRefGoogle Scholar
[3]Bowen, R.. Periodic points and measures for Axiom A diffeomorphisms. Trans. Amer. Math. Soc. 154 (1971), 377397.Google Scholar
[4]Burger, M.. Horocycle flow on geometrically finite surfaces. Duke Math. J. 61(3) (1990), 779803.CrossRefGoogle Scholar
[5]Duke, W., Rudnick, Z. and Sarnak, P.. Density of integer points on affine homogeneous varieties. Duke Math. J. 71(1) (1993), 143179.CrossRefGoogle Scholar
[6]Eskin, A. and McMullen, C. T.. Mixing, counting, and equidistribution in Lie groups. Duke Math. J. 71(1) (1993), 181209.CrossRefGoogle Scholar
[7]Gorodnik, A. and Oh, H.. Orbits of discrete subgroups on a symmetric space and the Furstenberg boundary. Duke Math. J. 139(3) (2007), 483525.Google Scholar
[8]Gorodnik, A., Shah, N. and Oh, H.. Strong wavefront lemma and counting lattice points in sectors. Israel J. Math. 176 (2010), 419444.CrossRefGoogle Scholar
[9]Gorodnik, A. and Maucourant, F.. Proximality and equidistribution on the Furstenberg boundary. Geom. Dedicata 113 (2005), 197213.Google Scholar
[10]Lax, P. D. and Phillips, R. S.. The asymptotic distribution of lattice points in Euclidean and non-Euclidean spaces. J. Funct. Anal. 46(3) (1982), 280350.CrossRefGoogle Scholar
[11]Margulis, G.. On Some Aspects of the Theory of Anosov Systems (Springer Monographs in Mathematics). Springer, Berlin, 2004, with a survey by Richard Sharp: Periodic orbits of hyperbolic flows, translated from the Russian by Valentina Vladimirovna Szulikowska.Google Scholar
[12]Maucourant, F.. Approximation diophantienne, dynamique des chambres de Weyl et répartition d’orbites de réseaux. PhD Thesis, Université Lille I, http://tel.archives-ouvertes.fr/tel-00158036/fr.Google Scholar
[13]Oh, H. and Shah, N.. Equidistribution and counting for orbits of geometrically finite hyperbolic groups. Preprint, arXiv:1001.2096.Google Scholar
[14]Patterson, S. J.. The limit set of a Fuchsian group. Acta Math. 136 (1976), 241273.CrossRefGoogle Scholar
[15]Peigné, M.. On the Patterson–Sullivan measure of some discrete groups of isometries. Israel J. Math. 133 (2003), 7788.CrossRefGoogle Scholar
[16]Roblin, T.. Sur l’ergodicité rationnelle et les propriétés ergodiques du flot géodésique dans les variétés hyperboliques. Ergod. Th. & Dynam. Sys. 20 (2000), 17851819.CrossRefGoogle Scholar
[17]Roblin, T.. Ergodicité et équidistribution en courbure négative. Mém. Soc. Math. Fr. (N.S.) 95 (2003), vi+96.Google Scholar
[18]Sullivan, D.. The density at infinity of a discrete group of hyperbolic motions. Publ. Math. Inst. Hautes Études Sci. 50 (1979), 171202.CrossRefGoogle Scholar
[19]Sullivan, D.. Entropy, Hausdorff measures old and new, and limit sets of geometrically finite Kleinian groups. Acta Math. 153(3–4) (1984), 259277.CrossRefGoogle Scholar