Physics – Condensed Matter – Disordered Systems and Neural Networks
Scientific paper
2007-09-06
Physics
Condensed Matter
Disordered Systems and Neural Networks
6 pages, 6 figures
Scientific paper
The Hele-Shaw experiment is performed with a circular invasion to study the scaling and dynamic behavior of the interface. We did not find any universal power law. The time exponent varies with the range of scale, as has been reported in the literature but not captured by existing models. We ascribe this distinct difference from the planar injection to the fact that our interface size grows with time. This renders the old geometries being constantly pushed apart to leave rooms for new features. As a result, the amplitude of the interface spectrum will decrease with the angular momentum, different from that of a white noise commonly assumed for the planar injection. Due to the moving boundary, the existing Kardar-Parisi-Zhang and Edwards-Wilkinson (EW) equations can no longer be applied. We propose a modified EW equation that not only conserves the fluid volume, but is also capable of predicting all the above features. Two phenomenological coefficients are introduced to represent the competing trend of instability and smoothness. Their dependence on the microscopic parameters are determined from dimensional arguments, and their estimated values conform with the experiments.
Hong Tzay-Ming
Lin Yen-Chih
Yun KiHyun
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