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Large deviation principles for non-uniformly hyperbolic rational maps

Published online by Cambridge University Press:  10 May 2010

HENRI COMMAN  and
JUAN RIVERA-LETELIER
HENRI COMMAN
Affiliation:
Institute of Mathematics, Pontifical Catholic University of Valparaiso, Chile (email: [email protected])
JUAN RIVERA-LETELIER
Affiliation:
Facultad de Matemáticas, Campus San Joaquín, P. Universidad Católica de Chile, Avenida Vicuña Mackenna 4860, Santiago, Chile (email: [email protected])
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Abstract

We show some level-2 large deviation principles for rational maps satisfying a strong form of non-uniform hyperbolicity, called ‘Topological Collet–Eckmann’. More precisely, we prove a large deviation principle for the distribution of iterated preimages, periodic points, and Birkhoff averages. For this purpose we show that each Hölder continuous potential admits a unique equilibrium state, and that the pressure function can be characterized in terms of iterated preimages, periodic points, and Birkhoff averages. Then we use a variant of a general result of Kifer.

Type
Research Article
Information
Ergodic Theory and Dynamical Systems , Volume 31 , Issue 2 , April 2011 , pp. 321 - 349
Copyright
Copyright © Cambridge University Press 2010

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References

[1]Araújo, V.. Large deviations bound for semiflows over a non-uniformly expanding base. Bull. Braz. Math. Soc. (N.S.) 38(3) (2007), 335376.CrossRefGoogle Scholar
[2]Aspenberg, M.. The Collet–Eckmann condition for rational functions on the Riemann sphere. PhD Thesis, 2004.Google Scholar
[3]Baldi, P.. Large deviations and stochastic homogenization. Ann. Mat. Pura Appl. (4) 151 (1988), 161177.CrossRefGoogle Scholar
[4]Chernoff, H.. A measure of asymptotic efficiency for tests of a hypothesis based on the sum of observations. Ann. Math. Stat. 23 (1952), 493507.CrossRefGoogle Scholar
[5]Comman, H.. Criteria for large deviations. Trans. Amer. Math. Soc. 355(7) (2003), 29052923, electronic.CrossRefGoogle Scholar
[6]Comman, H.. Variational form of the large deviation functional. Statist. Probab. Lett. 77(9) (2007), 931936.CrossRefGoogle Scholar
[7]Comman, H.. Strengthened large deviations for rational maps and full shifts, with unified proof. Nonlinearity 22(6) (2009), 14131429.CrossRefGoogle Scholar
[8]Cramér, H.. Sur un nouveau théorème-limite de la théorie des probabilités. Actualités Sci. Indust. 736 (1938), 523.Google Scholar
[9]Denker, M.. Probability theory for rational maps. Probability Theory and Mathematical Statistics (St. Petersburg, 1993). Gordon and Breach, Amsterdam, 1996, pp. 2940.Google Scholar
[10]Dujardin, R. and Favre, C.. Distribution of rational maps with a preperiodic critical point. Amer. J. Math. 130(4) (2008), 9791032.CrossRefGoogle Scholar
[11]Dobbs, N.. Measures with positive Lyapunov exponent and conformal measures in rational dynamics. Preprint, 2008, arXiv:0804.3753v1.Google Scholar
[12]Denker, M., Przytycki, F. and Urbański, M.. On the transfer operator for rational functions on the Riemann sphere. Ergod. Th. Dynam. Sys. 16(2) (1996), 255266.CrossRefGoogle Scholar
[13]Dunford, N. and Schwartz, J. T.. Linear Operators. Part I. Wiley Classics Library. John Wiley & Sons Inc, New York, 1988. General Theory, with the assistance of William G. Bade and Robert G. Bartle, Reprint of the 1958 original, a Wiley–Interscience Publication.Google Scholar
[14]Dinh, T.-C. and Sibony, N.. Dynamics in several complex variables: endomorphisms of projective spaces and polynomial-like mapping. Preprint, 2008, arXiv:0810.0811v1.Google Scholar
[15]Denker, M. and Urbański, M.. Ergodic theory of equilibrium states for rational maps. Nonlinearity 4(1) (1991), 103134.CrossRefGoogle Scholar
[16]Denker, M. and Urbański, M.. On the existence of conformal measures. Trans. Amer. Math. Soc. 328(2) (1991), 563587.CrossRefGoogle Scholar
[17]Dembo, A. and Zeitouni, O.. Large Deviations Techniques and Applications, 2nd edn(Applications of Mathematics (New York), 38). Springer, New York, 1998.CrossRefGoogle Scholar
[18]Ellis, R. S.. Large deviations for a general class of random vectors. Ann. Probab. 12(1) (1984), 112.CrossRefGoogle Scholar
[19]Ellis, R. S.. Entropy, Large Deviations, and Statistical Mechanics (Grundlehren der Mathematischen Wissenschaften [Fundamental Principles of Mathematical Sciences], 271). Springer, New York, 1985.CrossRefGoogle Scholar
[20]Ekeland, I. and Temam, R.. Convex Analysis and Variational Problems (Studies in Mathematics and its Applications, 1). North-Holland Publishing Co, Amsterdam, 1976 (translated from the French).Google Scholar
[21]Ekeland, I. and Témam, R.. Convex Analysis and Variational Problems, English edition(Classics in Applied Mathematics, 28). Society for Industrial and Applied Mathematics (SIAM), Philadelphia, PA, 1999 (translated from the French).CrossRefGoogle Scholar
[22]Freire, A., Lopes, A. and Mañé, R.. An invariant measure for rational maps. Bol. Soc. Brasil. Mat. 14(1) (1983), 4562.CrossRefGoogle Scholar
[23]Gärtner, J.. On large deviations from an invariant measure. Teor. Vero. Primen. 22(1) (1977), 2742.Google Scholar
[24]Grigull, J.. Große Abweichungen und Fluktuationen für Gleichgewichtsmaße rationaler Abbildungen. PhD Thesis, 1993.Google Scholar
[25]Gromov, M.. On the entropy of holomorphic maps. Enseign. Math. (2) 49(3–4) (2003), 217235.Google Scholar
[26]Graczyk, J. and Świa̧tek, G.. Harmonic measure and expansion on the boundary of the connectedness locus. Invent. Math. 142(3) (2000), 605629.CrossRefGoogle Scholar
[27]Kifer, Y.. Large deviations in dynamical systems and stochastic processes. Trans. Amer. Math. Soc. 321(2) (1990), 505524.CrossRefGoogle Scholar
[28]Keller, G. and Nowicki, T.. Spectral theory, zeta functions and the distribution of periodic points for Collet–Eckmann maps. Commun. Math. Phys. 149(1) (1992), 3169.CrossRefGoogle Scholar
[29]Ljubich, M. J.. Entropy properties of rational endomorphisms of the Riemann sphere. Ergod. Th. & Dynam. Sys. 3(3) (1983), 351385.CrossRefGoogle Scholar
[30]Lopes, A. O.. Entropy and large deviation. Nonlinearity 3(2) (1990), 527546.CrossRefGoogle Scholar
[31]Mañé, R.. On the uniqueness of the maximizing measure for rational maps. Bol. Soc. Brasil. Mat. 14(1) (1983), 2743.CrossRefGoogle Scholar
[32]Melbourne, I. and Nicol, M.. Large deviations for nonuniformly hyperbolic systems. Trans. Amer. Math. Soc. 360(12) (2008), 66616676.CrossRefGoogle Scholar
[33]Makarov, N. and Smirnov, S.. On thermodynamics of rational maps. II. Non-recurrent maps. J. Lond. Math. Soc. (2) 67(2) (2003), 417432.CrossRefGoogle Scholar
[34]Parry, W.. Entropy and Generators in Ergodic Theory. W. A. Benjamin, Inc, New York, 1969.Google Scholar
[35]Plachky, D.. On a theorem of G. L. Sievers. Ann. Math. Stat. 42 (1971), 14421443.CrossRefGoogle Scholar
[36]Przytycki, F. and Rivera-Letelier, J.. Statistical properties of topological Collet–Eckmann maps. Ann. Sci. École Norm. Sup. (4) 40(1) (2007), 135178.CrossRefGoogle Scholar
[37]Przytycki, F. and Rivera-Letelier, J.. Nice inducing schemes and the thermodynamics of rational maps. 2008, arXiv:0806.4385v2.Google Scholar
[38]Przytycki, F., Rivera-Letelier, J. and Smirnov, S.. Equivalence and topological invariance of conditions for non-uniform hyperbolicity in the iteration of rational maps. Invent. Math. 151(1) (2003), 2963.CrossRefGoogle Scholar
[39]Przytycki, F., Rivera-Letelier, J. and Smirnov, S.. Equality of pressures for rational functions. Ergod. Th. & Dynam. Sys. 24(3) (2004), 891914.CrossRefGoogle Scholar
[40]Przytycki, F.. On the Perron–Frobenius–Ruelle operator for rational maps on the Riemann sphere and for Hölder continuous functions. Bol. Soc. Brasil. Mat. (N.S.) 20(2) (1990), 95125.CrossRefGoogle Scholar
[41]Plachky, D. and Steinebach, J.. A theorem about probabilities of large deviations with an application to queuing theory. Period. Math. Hung. 6(4) (1975), 343345.CrossRefGoogle Scholar
[42]Pollicott, M. and Sharp, R.. Large deviations and the distribution of pre-images of rational maps. Commun. Math. Phys. 181(3) (1996), 733739.CrossRefGoogle Scholar
[43]Pollicott, M. and Sridharan, S.. Large deviation results for periodic points of a rational map. J. Dyn. Syst. Geom. Theor. 5(1) (2007), 6977.Google Scholar
[44]Pollicott, M., Sharp, R. and Yuri, M.. Large deviations for maps with indifferent fixed points. Nonlinearity 11(4) (1998), 11731184.CrossRefGoogle Scholar
[45]Przytycki, F. and Urbański, M.. Fractals in the plane, ergodic theory methods. Cambridge University Press. Available at http://www.math.unt.edu/∼urbanski and http://www.impan.edu.pl/∼feliksp, 2002 (to appear).Google Scholar
[46]Rey-Bellet, L. and Young, L.-S.. Large deviations in non-uniformly hyperbolic dynamical systems. Ergod. Th. & Dynam. Sys. 28(2) (2008), 587612.CrossRefGoogle Scholar
[47]Rees, M.. Positive measure sets of ergodic rational maps. Ann. Sci. École Norm. Sup. (4) 19(3) (1986), 383407.CrossRefGoogle Scholar
[48]Ruelle, D.. The mathematical structures of equilibrium statistical mechanics. Thermodynamic Formalism, 2nd edn. Cambridge Mathematical Library. Cambridge University Press, Cambridge, 2004.CrossRefGoogle Scholar
[49]Schaefer, H. H.. Topological Vector Spaces (Graduate Texts in Mathematics, 3). Springer, New York, 1971, third printing corrected.CrossRefGoogle Scholar
[50]Sievers, G. L.. On the probability of large deviations and exact slopes. Ann. Math. Stat. 40 (1969), 19081921.CrossRefGoogle Scholar
[51]Smirnov, S.. Symbolic dynamics and Collet–Eckmann conditions. Int. Math. Res. Not. 7 (2000), 333351.CrossRefGoogle Scholar
[52]Stratmann, B. O. and Urbanski, M.. Real analyticity of topological pressure for parabolically semihyperbolic generalized polynomial-like maps. Indag. Math. (N.S.) 14(1) (2003), 119134.CrossRefGoogle Scholar
[53]Takahashi, Y.. Entropy functional (free energy) for dynamical systems and their random perturbations. Stochastic Analysis (Katata, Kyoto, 1982) (North-Holland Mathematical Library, 32). North-Holland, Amsterdam, 1984, pp. 437467.Google Scholar
[54]Takahashi, Y.. Asymptotic behaviours of measures of small tubes: entropy, Liapunov’s exponent and large deviation. Dynamical Systems and Applications (Kyoto, 1987) (World Sci. Adv. Ser. Dynam. Systems, 5). World Scientific Publishing, Singapore, 1987, pp. 121.Google Scholar
[55]Walters, P.. An Introduction to Ergodic Theory (Graduate Texts in Mathematics, 79). Springer, New York, 1982.CrossRefGoogle Scholar
[56]Xia, H. and Fu, X.. Remarks on large deviation for rational maps on the Riemann sphere. Stoch. Dyn. 7(3) (2007), 357363.CrossRefGoogle Scholar
[57]Zinsmeister, M.. Formalisme Thermodynamique et Systèmes Dynamiques Holomorphes (Panoramas et Synthèses [Panoramas and Syntheses], 4). Société Mathématique de France, Paris, 1996.Google Scholar