Regularized combined field integral equations for acoustic transmission problems (1312.6598v1)

Abstract: We present a new class of well conditioned integral equations for the solution of two and three dimensional scattering problems by homogeneous penetrable scatterers. Our novel boundary integral equations result from suitable representations of the fields inside and outside the scatterer as combinations of single and double layer potentials acting on suitably defined regularizing operators. The regularizing operators are constructed to be suitable approximations of the admittance operators that map the transmission boundary conditions to the exterior and respectively interior Cauchy data on the interface between the media. The latter operators can be expressed in terms of Dirichlet-to-Neumann operators. We refer to these regularized boundary integral equations as Generalized Combined Source Integral Equations (GCSIE). The ensuing GCSIE are shown to be integral equations of the second kind in the case when the interface of material discontinuity is a smooth curve in two dimensions and a smooth surface in three dimensions.