Non-perturbative renormalization of the KPZ growth dynamics

A. Erzan; A. Gabrielli; A. Vespignani; C. Castellano; D. Forster; J-P. Bouchaud; L. Pietronero; L. Pietronero; L.-H. Tang; M. A. Moore; M. Kardar; M. Lässig; M. Marsili; M. Marsili; M. Marsili; R. Cafiero; T. Ala-Nissila; T. Halpin-Healy; T. Halpin-Healy

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Non-perturbative renormalization of the KPZ growth dynamics

Authors: A. Erzan
A. Gabrielli
A. Vespignani
C. Castellano
D. Forster
J-P. Bouchaud
L. Pietronero
L. Pietronero
L.-H. Tang
M. A. Moore
M. Kardar
M. Lässig
M. Marsili
M. Marsili
M. Marsili
R. Cafiero
T. Ala-Nissila
T. Halpin-Healy
T. Halpin-Healy
Publication date: 1 January 1998
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We introduce a non-perturbative renormalization approach which identifies stable fixed points in any dimension for the Kardar-Parisi-Zhang dynamics of rough surfaces. The usual limitations of real space methods to deal with anisotropic (self-affine) scaling are overcome with an indirect functional renormalization. The roughness exponent

\alpha

is computed for dimensions

d=1

to 8 and it results to be in very good agreement with the available simulations. No evidence is found for an upper critical dimension. We discuss how the present approach can be extended to other self-affine problems.Comment: 4 pages, 2 figures. To appear in Phys. Rev. Let

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