Approximation of the interface condition for stochastic Stefan-type problems

Müller, Marvin

doi:10.3934/dcdsb.2019121

Discrete &Amp; Continuous Dynamical Systems - B

2019

DOI: 10.3934/dcdsb.2019121

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Approximation of the interface condition for stochastic Stefan-type problems

Marvin Müller¹

Abstract: We consider approximations of the Stefan-type condition by imbalances of volume closely around the inner interface and study convergence of the solutions of the corresponding semilinear stochastic moving boundary problems. After a coordinate transformation, the problems can be reformulated as stochastic evolution equations on fractional power domains of linear operators. Here, the coefficients might fail to have linear growths and might be Lipschitz continuous only on bounded sets. We show continuity propertie… Show more

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Forward invariance and Wong–Zakai approximation for stochastic moving boundary problems

Keller‐Ressel

Müller

2019

J. Evol. Equ.

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We discuss a class of stochastic second-order PDEs in one spacedimension with an inner boundary moving according to a possibly non-linear, Stefan-type condition. We show that proper separation of phases is attained, i.e., the solution remains negative on one side and positive on the other side of the moving interface, when started with the appropriate initial conditions. To extend results from deterministic settings to the stochastic case, we establish a Wong-Zakai type approximation. After a coordinate transformation the problems are reformulated and analysed in terms of stochastic evolution equations on domains of fractional powers of linear operators.

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Forward invariance and Wong–Zakai approximation for stochastic moving boundary problems

Keller‐Ressel

Müller

2019

J. Evol. Equ.

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Approximation of the interface condition for stochastic Stefan-type problems

Cited by 1 publication

References 14 publications

Forward invariance and Wong–Zakai approximation for stochastic moving boundary problems

Forward invariance and Wong–Zakai approximation for stochastic moving boundary problems

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