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arxiv: 2211.13368 · v4 · pith:73VVSHJMnew · submitted 2022-11-24 · ❄️ cond-mat.dis-nn · cond-mat.mes-hall

Scattering Expansion for Localization in One Dimension: from Disordered Wires to Quantum Walks

classification ❄️ cond-mat.dis-nn cond-mat.mes-hall
keywords localizationphasedisorderdisorderedexpansionreflectionstrengthdimension
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We present a perturbative approach to disordered systems in one spatial dimension that accesses the full range of phase disorder and clarifies the connection between localization and phase information. We consider a long chain of identically disordered scatterers and expand in the reflection strength of any individual scatterer. We apply this expansion to several examples, including the Anderson model, a general class of periodic-on-average-random potentials, and a two-component discrete-time quantum walk, showing analytically in the latter case that the localization length can depend non-monotonically on the strength of phase disorder (whereas expanding in weak disorder yields monotonic decrease). More generally, we obtain to all orders in the expansion a particular non-separable form for the joint probability distribution of the transmission coefficient logarithm and reflection phase. Furthermore, we show that for weak local reflection strength, a version of the scaling theory of localization holds: the joint distribution is determined by just three parameters.

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