Antonio Cordoba, Diego Cordoba, Francisco Gancedo
Published 2008-06-13Version 1
We study the dynamics of the interface between two incompressible 2-D flows where the evolution equation is obtained from Darcy's law. The free boundary is given by the discontinuity among the densities and viscosities of the fluids. This physical scenario is known as the two dimensional Muskat problem or the two-phase Hele-Shaw flow. We prove local-existence in Sobolev spaces when, initially, the difference of the gradients of the pressure in the normal direction has the proper sign, an assumption which is also known as the Rayleigh-Taylor condition.
Regularity for a special case of two-phase Hele-Shaw flow via parabolic integro-differential equations
Interface evolution: water waves in 2-D
Darcy's law as low Mach and homogenization limit of a compressible fluid in perforated domains
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