Lyapunov Exponents of Linear Cocycles

Abstract: The "Atlantis Studies in Dynamical Systems" publishes monographs in the area of dynamical systems, written by leading experts in the field and useful for both students and researchers. Books with a theoretical nature will be published alongside books emphasizing applications. ISBN 978-94-6239-123-9 ISBN 978-94-6239-124-6 (eBook) DOI 10.2991/978-94-6239-124-6 Library of Congress Control Number: 2016933219 © Atlantis Press and the author(s) 2016 This book, or any parts thereof, may not be reproduced for co… Show more

“…We will thus focus on the more interesting situation where E ∈ [−2, 2], which will be handled as an application of Theorem 5.10. Here, we also mention that while Theorem 5.1 in [24] does predict the qualitative continuity of the Lyapunov exponent as λ → 0 + , i.e. lim λ→0 + L λ (E) = L λ=0 (E) , for each E ∈ [−2, 2] , (5.50) conclusions about the modulus of continuity based on [24] are not possible since L λ=0 (E) = 0 for every E ∈ [−2, 2].…”

“…Here, we also mention that while Theorem 5.1 in [24] does predict the qualitative continuity of the Lyapunov exponent as λ → 0 + , i.e. lim λ→0 + L λ (E) = L λ=0 (E) , for each E ∈ [−2, 2] , (5.50) conclusions about the modulus of continuity based on [24] are not possible since L λ=0 (E) = 0 for every E ∈ [−2, 2]. In order to apply Theorem 5.10 to the weak-disorder limit for the model described in (5.1), hypothesis [H3] needs to be verified.…”

Dependence of the Density of States on the Probability Distribution for Discrete Random Schrödinger Operators

“…We will thus focus on the more interesting situation where E ∈ [−2, 2], which will be handled as an application of Theorem 5.10. Here, we also mention that while Theorem 5.1 in [24] does predict the qualitative continuity of the Lyapunov exponent as λ → 0 + , i.e. lim λ→0 + L λ (E) = L λ=0 (E) , for each E ∈ [−2, 2] , (5.50) conclusions about the modulus of continuity based on [24] are not possible since L λ=0 (E) = 0 for every E ∈ [−2, 2].…”

“…Here, we also mention that while Theorem 5.1 in [24] does predict the qualitative continuity of the Lyapunov exponent as λ → 0 + , i.e. lim λ→0 + L λ (E) = L λ=0 (E) , for each E ∈ [−2, 2] , (5.50) conclusions about the modulus of continuity based on [24] are not possible since L λ=0 (E) = 0 for every E ∈ [−2, 2]. In order to apply Theorem 5.10 to the weak-disorder limit for the model described in (5.1), hypothesis [H3] needs to be verified.…”

Dependence of the Density of States on the Probability Distribution for Discrete Random Schrödinger Operators

“…In fact, the upper bound of large deviations from Theorem 6.2 on p.131 of [4] suffices for our purposes, as well. The second ingredient playing a decisive role in our proof of the lower bound below is the avalanche principle proved originally for two dimensional matrices in [8] and extended (in a strengthened form) to the multidimensional case in [6]. It is not difficult to see that the convergence in Theorem 2.2 holds true also in mean which does not require large deviations estimates but only a subadditivity argument together with the avalanche principle.…”

“…matrices. Namely, we will rely on the avalanche principle which appears for products of multidimensional matrices in [6]. Following [6] for each g ∈ GL d (R) we set…”

Erratum: Nonconventional random matrix products

“…After that, Kawaguchi extends the study on shadowable points recently introduced by Morales in relation to chaotic or non-chaotic properties [4]. About the non-autonomous case, Duarte and Klein give the shadowing property for nonautonomous systems which satisfy several conditions of the maps f n and pseudo-orbits in Avalanche principle proof [5]. In this paper, some new concepts are introduced for non-autonomous discrete systems, including shadowable points, totally disconnected property of X.…”

Shadowable Point for Non-Autonomous Discrete Dynamical Systems