Add to ORKGIn this Letter we introduce a method that allows one to prove uniform local results for one-dimensional discrete Schrödinger operators with Sturmian potentials. We apply this method to the transfer matrices in order to study the Lyapunov exponent and the growth rate of eigenfunctions. This gives uniform vanishing of the Lyapunov exponent on the spectrum for all irrational rotation numbers. For irrational rotation numbers with bounded continued fraction expansion, it gives uniform existence of the Lyapunov exponent on the whole complex plane. Moreover, it yields uniform polynomial upper bounds on the growth rate of transfer matrices for irrational rotation numbers with bounded density. In particular, all our results apply to the Fibonacci ca...
6 pages.International audienceWe present a result of absence of absolutely continuous spectrum in an...
In this paper, we study spectral properties of a family of quasi-periodic Schrödinger operators on t...
We consider Schrödinger operators with ergodic potential V_ω(n) = f(T^n(ω)), n Є Z, ω Є Ω, where T :...
In this Letter we introduce a method that allows one to prove uniform local results for one-dimensio...
We discuss the growth of the singular values of symplectic transfer matrices associated with ergodic...
We study the spectral properties of one-dimensional whole-line Schrödinger operators, especially tho...
We consider quasiperiodic Jacobi and Schr\"odinger operators of both a single- and multi-frequency. ...
We show that discrete one-dimensional Schrödinger operators on the half-line with ergodic potentials...
In 1990, Klein, Lacroix, and Speis proved (spectral) Anderson localisation for the Anderson model on...
This is the published version, also available here: http://dx.doi.org/10.1137/S0036142993247311.In t...
We analyze the top Lyapunov exponent of the product of sequences of two by two matrices that appears...
In this short note, we describe some recent results on the pointwise existence of the Lyapunov expon...
AbstractConsider ergodic orthogonal polynomials on the unit circle whose Verblunsky coefficients are...
We show that a one-frequency analytic SL(2,R) cocycle with Diophantine rotation vector is analytical...
The discrete Schrodinger equation describes the behavior of a 1-dimensional quantum particle in a di...
6 pages.International audienceWe present a result of absence of absolutely continuous spectrum in an...
In this paper, we study spectral properties of a family of quasi-periodic Schrödinger operators on t...
We consider Schrödinger operators with ergodic potential V_ω(n) = f(T^n(ω)), n Є Z, ω Є Ω, where T :...
In this Letter we introduce a method that allows one to prove uniform local results for one-dimensio...
We discuss the growth of the singular values of symplectic transfer matrices associated with ergodic...
We study the spectral properties of one-dimensional whole-line Schrödinger operators, especially tho...
We consider quasiperiodic Jacobi and Schr\"odinger operators of both a single- and multi-frequency. ...
We show that discrete one-dimensional Schrödinger operators on the half-line with ergodic potentials...
In 1990, Klein, Lacroix, and Speis proved (spectral) Anderson localisation for the Anderson model on...
This is the published version, also available here: http://dx.doi.org/10.1137/S0036142993247311.In t...
We analyze the top Lyapunov exponent of the product of sequences of two by two matrices that appears...
In this short note, we describe some recent results on the pointwise existence of the Lyapunov expon...
AbstractConsider ergodic orthogonal polynomials on the unit circle whose Verblunsky coefficients are...
We show that a one-frequency analytic SL(2,R) cocycle with Diophantine rotation vector is analytical...
The discrete Schrodinger equation describes the behavior of a 1-dimensional quantum particle in a di...
6 pages.International audienceWe present a result of absence of absolutely continuous spectrum in an...
In this paper, we study spectral properties of a family of quasi-periodic Schrödinger operators on t...
We consider Schrödinger operators with ergodic potential V_ω(n) = f(T^n(ω)), n Є Z, ω Є Ω, where T :...