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Thermal conductivity of nonlinear waves in disordered chains

We present computational data on the thermal conductivity of nonlinear waves in disordered chains. Disorder induces Anderson localization for linear waves and results in a vanishing conductivity. Cubic nonlinearity restores normal conductivity, but with a strongly temperature-dependent conductivity $κ(T)$. We find indications for an asymptotic low-temperature $κ\sim T^4$ and intermediate temperature $κ\sim T^2$ laws. These findings are in accord with theoretical studies of wave packet spreading, where a regime of strong chaos is found to be intermediate, followed by an asymptotic regime of weak chaos (EPL 91 (2010) 30001).

preprint2011arXivOpen access
Sergej FlachMikhail IvanchenkoNianbei Li
cond-mat.stat-mechcond-mat.dis-nn
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Sergej FlachMikhail IvanchenkoNianbei Li

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