Bourgain Positivity and Continuity of the Lyapunov Exponent
Abstract
A survey of recent results on the dependence of Lyapunov exponents on the underlying data.
References
Avila, A. , Eskin, A. and Viana, M. . Continuity of Lyapunov exponents for products of random matrices. In preparation.Google Scholar
Avila, A. , Santamaria, J. and Viana, M. . Holonomy invariance: rough regularity and applications to Lyapunov exponents. Astérisque 358 (2013), 13–74.Google Scholar
Avila, A. and Viana, M. . Simplicity of Lyapunov spectra: a sufficient criterion. Port. Math. 64 (2007), 311–376.CrossRefGoogle Scholar
Avila, A. and Viana, M. . Simplicity of Lyapunov spectra: proof of the Zorich–Kontsevich conjecture. Acta Math. 198 (2007), 1–56.CrossRefGoogle Scholar
Avila, A. and Viana, M. . Extremal Lyapunov exponents: an invariance principle and applications. Invent. Math. 181(1) (2010), 115–189.CrossRefGoogle Scholar
Avila, A. , Viana, M. and Wilkinson, A. . Absolute continuity, Lyapunov exponents and rigidity I: geodesic flows. J. Eur. Math. Soc. (JEMS) 17 (2015), 1435–1462.CrossRefGoogle Scholar
Backes, L. . Rigidity of fiber bunched cocycles. Bull. Braz. Math. Soc. (N.S.) 46 (2015), 163–179.CrossRefGoogle Scholar
Backes, L. , Brown, A. and Butler, C. . Continuity of Lyapunov exponents for cocycles with invariant holonomies. Preprint, 2015, arXiv:1507.08978.Google Scholar
Backes, L. , Poletti, M. and Sánchez, A. . The set of fiber-bunched cocycles with nonvanishing Lyapunov exponents over a partially hyperbolic map is open. Math. Res. Lett. to appear.Google Scholar
Barreira, L. and Pesin, Ya. . Lyapunov Exponents and Smooth Ergodic Theory (University Lecture Series, 23) . American Mathematical Society, Providence, RI, 2002.Google Scholar
Bochi, J. . Genericity of zero Lyapunov exponents. Ergod. Th. & Dynam. Sys. 22 (2002), 1667–1696.CrossRefGoogle Scholar
Bochi, J. . C 1 -generic symplectic diffeomorphisms: partial hyperbolicity and zero centre Lyapunov exponents. J. Inst. Math. Jussieu 8 (2009), 49–93.Google Scholar
Bochi, J. and Viana, M. . The Lyapunov exponents of generic volume-preserving and symplectic maps. Ann. of Math. (2) 161 (2005), 1423–1485.CrossRefGoogle Scholar
Bocker, C. and Viana, M. . Continuity of Lyapunov exponents for random two-dimensional matrices. Ergod. Th. & Dynam. Sys. 37 (2017), 1413–1442.CrossRefGoogle Scholar
Bonatti, C. , Gómez-Mont, X. and Viana, M. . Généricité d'exposants de Lyapunov non-nuls pour des produits déterministes de matrices. Ann. Inst. H. Poincaré Anal. Non Linéaire 20 (2003), 579–624.CrossRefGoogle Scholar
Bonatti, C. and Viana, M. . Lyapunov exponents with multiplicity 1 for deterministic products of matrices. Ergod. Th. & Dynam. Sys. 24 (2004), 1295–1330.CrossRefGoogle Scholar
Bourgain, J. . Positivity and continuity of the Lyapunov exponent for shifts on 𝕋 d with arbitrary frequency vector and real analytic potential. J. Anal. Math. 96 (2005), 313–355.CrossRefGoogle Scholar
Bourgain, J. and Jitomirskaya, S. . Continuity of the Lyapunov exponent for quasiperiodic operators with analytic potential. J. Stat. Phys. 108 (2002), 1203–1218.CrossRefGoogle Scholar
Butler, C. . Discontinuity of Lyapunov exponents near fiber bunched cocycles. Ergod. Th. & Dynam. Sys. 38 (2018), 523–539.CrossRefGoogle Scholar
Cambrainha, M. and Matheus, C. . Typical symplectic locally constant cocycles over certain shifts of countable type have simple Lyapunov spectra. Port. Math. 73 (2016), 171–176.CrossRefGoogle Scholar
Damanik, D. . Schrödinger operators with dynamically defined potentials. Ergod. Th. & Dynam. Sys. 37 (2017), 1681–1764.CrossRefGoogle Scholar
Duarte, P. and Klein, S. . Large deviations for products of random two dimensional matrices. Preprint, 2018.CrossRefGoogle Scholar
Duarte, P. and Klein, S. . Large deviation type estimates for iterates of linear cocycles. Stoch. Dyn. 16 (2016), 1660010, 54.CrossRefGoogle Scholar
Duarte, P. and Klein, S. . Lyapunov Exponents of Linear Cocycles: Continuity via Large Deviations (Atlantis Studies in Dynamical Systems, 3) . Atlantis Press, Paris, 2016.CrossRefGoogle Scholar
Duarte, P. , Klein, S. and Santos, M. . A random cocycle with non Hölder Lyapunov exponent. Preprint, 2017.Google Scholar
Furstenberg, H. . Non-commuting random products. Trans. Amer. Math. Soc. 108 (1963), 377–428.CrossRefGoogle Scholar
Furstenberg, H. and Kesten, H. . Products of random matrices. Ann. Math. Statist. 31 (1960), 457–469.CrossRefGoogle Scholar
Furstenberg, H. and Kifer, Yu. . Random matrix products and measures in projective spaces. Israel J. Math. 10 (1983), 12–32.CrossRefGoogle Scholar
Gol'dsheid, I. Ya. and Margulis, G. A. . Lyapunov indices of a product of random matrices. Uspekhi Mat. Nauk 44 (1989), 13–60.Google Scholar
Goldstein, M. and Schlag, W. . Hölder continuity of the integrated density of states for quasi-periodic Schrödinger equations and averages of shifts of subharmonic functions. Ann. of Math. (2) 154 (2001), 155–203.CrossRefGoogle Scholar
Guivarc'h, Y. and Raugi, A. . Fontière de Furstenberg, proprietés de contraction et theorèmes de convergence. Z. Wahrsch. Verw. Gebiete 69 (1985), 187–242.CrossRefGoogle Scholar
Guivarc'h, Y. and Raugi, A. . Products of random matrices: convergence theorems. Contemp. Math. 50 (1986), 31–54.CrossRefGoogle Scholar
Hennion, H. . Loi des grands nombres et perturbations pour des produits réductibles de matrices aléatoires indépendantes. Z. Wahrsch. Verw. Gebiete 67 (1984), 265–278.CrossRefGoogle Scholar
Rodriguez Hertz, F. , Rodriguez Hertz, M. A. , Tahzibi, A. and Ures, R. . Maximizing measures for partially hyperbolic systems with compact center leaves. Ergod. Th. & Dynam. Sys. 32 (2012), 825–839.CrossRefGoogle Scholar
Hirsch, M. , Pugh, C. and Shub, M. . Invariant Manifolds (Lecture Notes in Mathematics, 583) . Springer, Berlin, 1977.CrossRefGoogle Scholar
Kingman, J. . The ergodic theory of subadditive stochastic processes. J. Roy. Statist. Soc. Ser. A 30 (1968), 499–510.Google Scholar
Knill, O. . The upper Lyapunov exponent of SL(2, R) cocycles: discontinuity and the problem of positivity. Lyapunov Exponents (Oberwolfach, 1990) (Lecture Notes in Mathematics, 1486) . Springer, Berlin, 1991, pp. 86–97.CrossRefGoogle Scholar
Knill, O. . Positive Lyapunov exponents for a dense set of bounded measurable SL (2, R)-cocycles. Ergod. Th. & Dynam. Sys. 12 (1992), 319–331.CrossRefGoogle Scholar
Kuratowski, K. . Topology. Vol. I. Academic Press, New York–London, 1966, New edition, revised and augmented. Translated from the French by J. Jaworowski.Google Scholar
Ledrappier, F. . Positivity of the exponent for stationary sequences of matrices. Lyapunov Exponents (Bremen, 1984) (Lecture Notes Mathematics, 1186) . Springer, Berlin, 1986, pp. 56–73.CrossRefGoogle Scholar
Lewowicz, J. . Expansive homeomorphisms of surfaces. Bol. Soc. Bras. Mat. 20 (1989), 113–133.CrossRefGoogle Scholar
Liang, C. , Marin, K. and Yang, J. . Lyapunov exponents of partially hyperbolic volume-preserving maps with 2-dimensional center bundle. Preprint, 2016, arXiv:1604.05987.Google Scholar
Lyapunov, A. M. . The General Problem of the Stability of Motion. Taylor & Francis, London, 1992, Translated from Edouard Davaux's French translation (1907) of the 1892 Russian original and edited by A. T. Fuller. With an introduction and preface by Fuller, a biography of Lyapunov by V. I. Smirnov, and a bibliography of Lyapunov's works compiled by J. F. Barrett. Lyapunov centenary issue. Reprint of Internat. J. Control 5 5 (1992), no. 3. With a foreword by Ian Stewart.CrossRefGoogle Scholar
Malheiro, E. and Viana, M. . Lyapunov exponents of linear cocycles over Markov shifts. Stoch. Dyn. 15 (2015), 1550020, 27.CrossRefGoogle Scholar
Mañé, R. . Oseledec's Theorem from the Generic Viewpoint (Proceedings International Congress of Mathematicians, 1 and 2 (Warsaw, 1983)) . Polish Scientific Publishers PWN, Warsaw, 1984, pp. 1269–1276.Google Scholar
Marín, K. . C r -density of (non-uniform) hyperbolicity in partially hyperbolic symplectic diffeomorphisms. Comment. Math. Helv. 91 (2016), 357–396.CrossRefGoogle Scholar
Oseledets, V. I. . A multiplicative ergodic theorem: Lyapunov characteristic numbers for dynamical systems. Trans. Moscow Math. Soc. 19 (1968), 197–231.Google Scholar
Le Page, É. . Régularité du plus grand exposant caractéristique des produits de matrices aléatoires indépendantes et applications. Ann. Inst. Henri Poincaré Probab. Stat. 25 (1989), 109–142.Google Scholar
Peres, Y. . Analytic dependence of Lyapunov exponents on transition probabilities. Lyapunov Exponents (Oberwolfach, 1990) (Lecture Notes in Mathematics, 1486) . Springer, Berlin, 1991, pp. 64–80.CrossRefGoogle Scholar
Polletti, M. and Viana, M. . Simple Lyapunov spectrum for certain linear cocycles over partially hyperbolic maps. Preprint, 2016, IMPA.Google Scholar
Raghunathan, M. S. . A proof of Oseledec's multiplicative ergodic theorem. Israel J. Math. 32 (1979), 356–362.CrossRefGoogle Scholar
Ruelle, D. . Analyticity properties of the characteristic exponents of random matrix products. Adv. Math. 32 (1979), 68–80.CrossRefGoogle Scholar
Ruelle, D. . Characteristic exponents and invariant manifolds in Hilbert space. Ann. of Math. (2) 115 (1982), 243–290.CrossRefGoogle Scholar
Saghin, R. and Yang, J. . Rigidity of lyapunov exponents of linear Anosov diffeomorphisms. In preparation.Google Scholar
Sánchez, A. . Lyapunov exponents of probability distributions with non-compact support. Preprint, 2018, IMPA.Google Scholar
Tahzibi, A. and Yang, J. . Invariance principle and rigidity of high entropy measures. Trans. Amer. Math. Soc. to appear.Google Scholar
Tall, E. Y. and Viana, M. . Moduli of continuity of Lyapunov exponents for random 
$\operatorname{GL}(2)$ -cocycles. Preprint, 2018, IMPA.CrossRefGoogle Scholar
Ures, R. , Viana, M. and Yang, J. . Maximal measures of diffeomorphisms on circle fiber bundles. In preparation.Google Scholar
Viana, M. . Multidimensional nonhyperbolic attractors. Publ. Math. Inst. Hautes Études Sci. 85 (1997), 63–96.CrossRefGoogle Scholar
Viana, M. . Almost all cocycles over any hyperbolic system have nonvanishing Lyapunov exponents. Ann. of Math. (2) 167 (2008), 643–680.CrossRefGoogle Scholar
Viana, M. . Lectures on Lyapunov Exponents (Cambridge Studies in Advanced Mathematics, 145) . Cambridge University Press, Cambridge, 2014.CrossRefGoogle Scholar
Viana, M. and Oliveira, K. . Foundations of Ergodic Theory. Cambridge University Press, Cambridge, 2015.Google Scholar
Viana, M. and Yang, J. . Continuity of Lyapunov exponents in the 
$C^{0}$ topology. Israel J. Math. to appear.Google Scholar
Viana, M. and Yang, J. . Physical measures and absolute continuity for one-dimensional center direction. Ann. Inst. Henri Poincaré Anal. Non Linéaire 30 (2013), 845–877.CrossRefGoogle Scholar
Villani, C. . Optimal Transport, Old and New (Grundlehren der Mathematischen Wissenschaften, 338) . Springer, Berlin, 2009.CrossRefGoogle Scholar
Walters, P. . A dynamical proof of the multiplicative ergodic theorem. Trans. Amer. Math. Soc. 335 (1993), 245–257.CrossRefGoogle Scholar
Source: https://www.cambridge.org/core/journals/ergodic-theory-and-dynamical-systems/article/discontinuity-of-lyapunov-exponents/3A74B7E47502AEC6DFC1556B74E5C77C
0 Response to "Bourgain Positivity and Continuity of the Lyapunov Exponent"
Post a Comment