arXiv:1407.3153 Abstract | arXiv Analytics

arXiv:1407.3153 [math.PR]Abstract References Reviews Resources

The Einstein relation for the KPZ equation

Published 2014-07-11Version 1

We compute the non-universal constants in the KPZ equation in one dimension, in terms of the thermodynamical quantities associated to the underlying microscopic dynamics. In particular, we derive the second-order Einstein relation $\lambda = \frac{1}{2}\frac{d^2}{d\rho^2} \chi(\rho) D(\rho)$ for the transport coefficient $\lambda$ of the KPZ equation, in terms of the conserved quantity $\rho$, the diffusion coefficient $D$ and the static compressibility of the system $\chi$.

Comments: 9 pages

DOI: 10.1007/s10955-014-1158-9

Categories: math.PR, math-ph, math.MP

Subjects: 60K35

Keywords: kpz equation, second-order einstein relation, non-universal constants, diffusion coefficient, transport coefficient

Tags: journal article

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arXiv:1407.3153 [math.PR]Abstract References Reviews Resources

The Einstein relation for the KPZ equation

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The Einstein relation for the KPZ equation

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arXiv:1407.3153 [math.PR]Abstract References Reviews Resources