Conserved Dynamics and Interface Roughening in Spontaneous Imbibition : A Phase Field Model
Abstract
The propagation and roughening of a fluid-gas interface through a disordered medium in the case of capillary driven spontaneous imbibition is considered. The system is described by a conserved (model B) phase-field model, with the structure of the disordered medium appearing as a quenched random field α( x). The flow of liquid into the medium is obtained by imposing a non-equilibrium boundary condition on the chemical potential, which reproduces Washburn's equation H t1/2 for the slowing down motion of the average interface position H. The interface is found to be superrough, with global roughness exponent ≈ 1.25, indicating anomalous scaling. The spatial extent of the roughness is determined by a length scale × H1/2 arising from the conservation law. The interface advances by avalanche motion, which causes temporal multiscaling and qualitatively reproduces the experimental results of Horv'ath and Stanley [Phys. Rev. E 52 5166 (1995)] on the temporal scaling of the interface.
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