Abstract
We develop a general nonlinear Luttinger liquid theory to describe the dynamics of one-dimensional quantum critical systems at low temperatures. To demonstrate the predictive power of our theory we compare results for the autocorrelation G(t) in the XXZ chain with numerical density-matrix renormalization group data and obtain excellent agreement. Our calculations provide, in particular, direct evidence that G(t) shows a diffusion-like decay, in sharp contrast to the exponential decay in time predicted by conventional Luttinger liquid theory.
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Karrasch, C., Pereira, R. G., & Sirker, J. (2015). Low temperature dynamics of nonlinear Luttinger liquids. New Journal of Physics, 17(10). https://doi.org/10.1088/1367-2630/17/10/103003
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