A semi-group approach to the thin-film equation with general mobility
Anouk C. Wisse (TU Delft - Electrical Engineering, Mathematics and Computer Science)
Manuel Gnann – Mentor (TU Delft - Analysis)
Mark Veraar – Graduation committee member (TU Delft - Analysis)
Wim van Horssen – Graduation committee member (TU Delft - Mathematical Physics)
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Abstract
This thesis treats the thin-film equation which models the film height $h$ for a viscous film in the complete wetting regime. We show existence and uniqueness to the thin-film equation with mobility m(h) = hn and mobility exponent n∈ (1,3/2)∪ (3/2,3). The thin-film equation is rewritten as an abstract Cauchy problem and usage of semi-group theory yields maximal Lp-regularity for the linearized problem. With a fixed point argument, analogous to the one used by Giacomelli, Gnann, Knüpfer and Otto in their 2014 paper, the nonlinear problem is treated. Under a smallness condition on the initial value to a suitably transformed version of the thin-film equation, we obtain a solution in Lp(0,∞;H_{k-2,α-1/2})∩ \dot{W}1,p(0,∞;H_{k+2,α+1\2}), where the H-spaces denote weighted Sobolev spaces. The novelty of this work lies in the usage of Lp-spaces in time, where the existing literature only deals with L2-spaces. It is found that the Lp setting allows for treatment of all n∈ (1,3/2)∪ (3/2,3).