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An Adaptive Finite Element DtN Method for Maxwell's Equations in Biperiodic Structures

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arxiv 1811.12449 v1 pith:NZQATE3H submitted 2018-11-29 math.NA cs.NA

An Adaptive Finite Element DtN Method for Maxwell's Equations in Biperiodic Structures

classification math.NA cs.NA
keywords errorelementfinitetruncationboundaryadaptivemethodapproximation
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Consider the diffraction of an electromagnetic plane wave by a biperiodic structure where the wave propagation is governed by the three-dimensional Maxwell equations. Based on transparent boundary condition, the grating problem is formulated into a boundary value problem in a bounded domain. Using a duality argument technique, we derive an a posteriori error estimate for the finite element method with the truncation of the nonlocal Dirichlet-to-Neumann (DtN) boundary operator. The a posteriori error consists of both the finite element approximation error and the truncation error of boundary operator which decays exponentially with respect to the truncation parameter. An adaptive finite element algorithm is developed with error controlled by the a posterior error estimate, which determines the truncation parameter through the truncation error and adjusts the mesh through the finite element approximation error. Numerical experiments are presented to demonstrate the competitive behavior of the proposed adaptive method.

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