Anderson localization for the completely resonant phases
classification
🧮 math.SP
keywords
thetalambdaalphaandersonlocalizationmathbbbetaevery
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For the almost Mathieu operator $ (H_{\lambda,\alpha,\theta}u) (n)=u(n+1)+u(n-1)+ \lambda v(\theta+n\alpha)u(n)$, Avila and Jitomirskaya guess that for every phase $ \theta \in \mathscr{R} \triangleq\{\theta\in \mathbb{R}\;| \; 2\theta + \alpha \mathbb{Z} \in \mathbb{Z}\}$, $H_{\lambda,\alpha,\theta}$ satisfies Anderson localization if $ |\lambda| > e^{ 2 \beta}$. In the present paper, we show that for every phase $ \theta \in \mathscr{R} $, $H_{\lambda,\alpha,\theta}$ satisfies Anderson localization if $ |\lambda| > e^{ 7 \beta}$.
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