Please use this identifier to cite or link to this item: http://hdl.handle.net/20.500.12323/5084
Title: Direct and Inverse Problems for Thermal Groovingbu Surface Diffusion with time Dependent Mullins Coefficient
Authors: Ismailov, Mansur I.
Keywords: Mullins’ equation
initial-boundary value problem
inverse coefficient problem
Fourier method
Issue Date: 2021
Publisher: Mathematical Modelling and Analysis
Series/Report no.: Vol. 26;Issue 1
Abstract: We consider the Mullins’ equation of a single surface grooving when the surface diffusion is not considered as very slow. This problem can be formed by a surface grooving of profiles in a finite space region. The finiteness of the space region allows to apply the Fourier series analysis for one groove and also to consider the Mullins coefficient as well as slope of the groove root to be time-dependent. We also solve the inverse problem of finding time-dependent Mullins coefficient from total mass measurement. For both of these problems, the grooving side boundary conditions are identical to those of Mullins, and the opposite boundary is accompanied by a zero position and zero curvature which both together arrive at self adjoint boundary conditions.
URI: http://hdl.handle.net/20.500.12323/5084
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