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A modified volume integral equation for anisotropic elastic or conducting inhomogeneities: unconditional solvability by Neumann series. (English) Zbl 1371.35054
Summary: This work addresses the solvability and solution of volume integro differential equations (VIEs) associated with 3D free-space transmission problems (FSTPs) involving elastic or conductive inhomogeneities. A modified version of the singular volume integral equation (SVIE) associated with the VIE is introduced and shown to be of second kind involving a contraction operator, i.e., solvable by Neumann series, implying the well-posedness of the initial VIE. Then, the solvability of VIEs for frequency-domain FSTPs (modelling the scattering of waves by compactly-supported inhomogeneities) follows by a compact perturbation argument. This approach extends work by R. Potthast [J. Integral Equations Appl. 11, No. 2, 197–215 (1999; Zbl 0980.78004)] on 2D electromagnetic problems (transverse-electric polarization conditions) involving orthotropic inhomogeneities in a isotropic background and contains recent results on the solvability of Eshelby’s equivalent inclusion problem as special cases. The proposed modified SVIE is also useful for iterative solution methods, as Neumannn series converge (i) unconditionally for static problems and (ii) on some inhomogeneity configurations for which divergence occurs with the usual SVIE for wave scattering problems.

MSC:
35J15 Second-order elliptic equations
45F15 Systems of singular linear integral equations
74J20 Wave scattering in solid mechanics
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