arXiv:0804.1898 Abstract | arXiv Analytics

arXiv:0804.1898 [cond-mat.stat-mech]Abstract References Reviews Resources

Dynamic Scaling of Non-Euclidean Interfaces

Published 2008-04-11Version 1

The dynamic scaling of curved interfaces presents features that are strikingly different from those of the planar ones. Spherical surfaces above one dimension are flat because the noise is irrelevant in such cases. Kinetic roughening is thus a one-dimensional phenomenon characterized by a marginal logarithmic amplitude of the fluctuations. Models characterized by a planar dynamical exponent $z>1$, which include the most common stochastic growth equations, suffer a loss of correlation along the interface, and their dynamics reduce to that of the radial random deposition model in the long time limit. The consequences in several applications are discussed, and we conclude that it is necessary to reexamine some experimental results in which standard scaling analysis was applied.

Journal: Phys. Rev. Lett. 100, 116101 (2008)

DOI: 10.1103/PhysRevLett.100.116101

Categories: cond-mat.stat-mech, math-ph, math.MP, nlin.AO

Subjects: 68.35.Ct, 02.40.Ky, 05.40.-a, 68.35.Fx

Keywords: dynamic scaling, non-euclidean interfaces, common stochastic growth equations, radial random deposition model, marginal logarithmic amplitude

Tags: journal article

Related articles: Most relevant | Search more

arXiv:0810.4791 [cond-mat.stat-mech] (Published 2008-10-27, updated 2009-02-23)

Comment on "Dynamic Scaling of Non-Euclidean Interfaces" [arXiv:0804.1898]

Joachim Krug

arXiv:1301.4468 [cond-mat.stat-mech] (Published 2013-01-18, updated 2013-02-27)

Interfacial roughening in non-ideal fluids: Dynamic scaling in the weak- and strong-damping regime