Emmanuel Chasseigne, Silvia Sastre-Gomez
Published 2013-07-04Version 1
We study a nonlocal version of the two-phase Stefan problem, which models a phase transition problem between two distinct phases evolving to distinct heat equations. Mathematically speaking, this consists in deriving a theory for sign-changing solutions of the equation, ut = J * v - v, v = {\Gamma}(u), where the monotone graph is given by {\Gamma}(s) = sign(s)(|s|-1)+ . We give general results of existence, uniqueness and comparison, in the spirit of [2]. Then we focus on the study of the asymptotic behaviour for sign-changing solutions, which present challenging difficulties due to the non-monotone evolution of each phase.
Boundary controllability of phase-transition region of a two-phase Stefan problem
Local well-posedness and Global stability of the Two-Phase Stefan problem
Singular limits for the two-phase Stefan problem
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