We examine the transient scattered and transmitted fields generated when an incident electromagnetic wave impinges on a dielectric scatterer or a coated conductor embedded in an infinite space. By applying a boundary-field equation method, we reformulate the problem in the Laplace domain using the electric field equation inside the scatterer and a system of boundary integral equations for the scattered electric field in free space. To analyze this nonlocal boundary problem, we replace it by an equivalent boundary value problem. Existence, uniqueness and stability of the weak solution to the equivalent BVP are established in appropriate function spaces in terms of the Laplace transformed variable. The stability bounds are translated into time-domain estimates which determine the regularity of the solution in terms of the regularity of the problem data. These estimates can be easily converted into error estimates for a numerical discretization on the convolution quadrature for time evolution.

翻译：本文研究了当入射电磁波撞击嵌入无限空间中的介质散射体或涂层导体时产生的瞬态散射场与透射场。通过应用边界-场方程方法，我们在拉普拉斯域中利用散射体内部电场方程与自由空间散射电场的边界积分方程组重构了该问题。为分析此非局部边界问题，我们将其替换为等价的边值问题。在适当的函数空间中，依据拉普拉斯变换变量建立了等价边值问题弱解的存在性、唯一性与稳定性。稳定性界被转换为时域估计，从而根据问题数据的正则性确定了解的正则性。这些估计可便捷地转化为时间演化卷积求积数值离散化的误差估计。