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Infinite ergodic theory for Kleinian groups

Published online by Cambridge University Press:  04 July 2005

MANUEL STADLBAUER
Affiliation:
Institut für Mathematische Stochastik, University of Göttingen, Maschmühlenweg 8–10, 37 073 Göttingen, Germany (e-mail: stadelba@math.uni-goettingen.de)
BERND O. STRATMANN
Affiliation:
University of St. Andrews, Mathematical Institute, North Haugh, St. Andrews KY16 9SS, Scotland UK (e-mail: bos@st-and.ac.uk)

Abstract

In this paper we use infinite ergodic theory to study limit sets of essentially free Kleinian groups which may have parabolic elements of arbitrary rank. By adapting a method of Adler, we construct a section map S for the geodesic flow on the associated hyperbolic manifold. We then show that this map has the Markov property and that it is conservative and ergodic with respect to the invariant measure induced by the Liouville–Patterson measure. Furthermore, we obtain that S is rationally ergodic with respect to different types of return sequences (an), which are governed by the exponent of convergence $\delta$ and the maximal possible rank kmax of the parabolic elements of the group as follows \[a_n\asymp\begin{cases}n^{2\delta-k_{\max}}&\text{for }\delta<(k_{\max}+1)/2,\\n/\!\log n&\text{for }\delta=(k_{\max}+1)/2,\\n&\text{for }\delta>(k_{\max}+1)/2.\end{cases}\] Subsequently, we give a discussion of an associated canonical map T, which is an analogue of the Bowen–Series map in the Fuchsian case. We show that T is pointwise dual ergodic with respect to these return sequences (an), which then allows us to determine the index of variation $\beta=\min\{1,2\delta-k_{\max}\}$, and to deduce that the ergodic sums Sn(f)/an converge strongly distributional to the Mittag–Leffler distribution of index $\beta$. We then give applications to number theory and to the statistics of cuspidal windings. Also, as a corollary we obtain a special case of Sullivan's result that the geodesic flow on a geometrically finite hyperbolic manifold is ergodic with respect to the Liouville–Patterson measure.

Type
Research Article
Copyright
2005 Cambridge University Press

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