Multi-Domain Approaches for the Solution of High-Frequency Time-Harmonic Propagation Problems
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1 Académie universitaire Wallonie Europe Université de Liège Faculté des Sciences Appliquées Collège de doctorat en Électricité, électronique et informatique Multi-Domain Approaches for the Solution of High-Frequency Time-Harmonic Propagation Problems Doctoral Dissertation presented by Alexandre VION in fullfilment of the requirements for the degree of Docteur en Sciences de l Ingénieur October 2014
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3 i Introduction 1 1 A challenging problem: the numerical solution of HF wave propagation Problem description Time-dependent wave equation The Helmholtz equation and boundary conditions Model problems Numerical techniques for the Helmholtz equation Boundary integral equations PDE-based methods Asymptotic methods The finite element method Weak formulation Nodal finite element methods Absorbing boundary conditions Perfectly matched layers Difficulties with FEM at high frequency Sparse linear solvers for propagation problems Direct solvers Usual iterative methods and preconditioners Domain decomposition methods Extension to Maxwell s equations Time-harmonic Maxwell s equations Weak formulation Multi-domain methods and linear systems Common framework of multi-domain methods General iterative scheme Iteration operators and linear systems Introduction to iterative linear solvers Basic iterative scheme Krylov solvers Preconditioning i
4 ii 2.3 Domain partitions Decompositions Covering Schwarz methods Classical Schwarz Optimized Schwarz Transmission conditions for optimized Schwarz methods Coarse grid and scalability Multiple obstacles scattering algorithm Multiple scattering as coupled problems Iterative solution of the coupled problem Optimized Schwarz for Maxwell Problem setting Optimized transmission boundary conditions Localization of the square-root GIBC Double sweep preconditioner for Schwarz methods Matrix representation of the Schwarz operator General case Simplified case Analysis of the 1d case Cyclic decompositions Inverse operator as preconditioner Inversion of the simplified Schwarz operator Spectrum of the preconditioned operator Interpretation as the double sweep Inverse operator for cyclic decompositions Relation with incomplete decompositions Parallelization of the double sweep Numerical results Full sweeps Sweeps with cuts Amplitude formulation for the multiple obstacles scattering algorithm Phase reduction formulation Phase reduction formulation Phase estimation Efficient implementation of the MOSA Discretization for PR-FEM and MOSA Fast iterations and stabilization Numerical results PR-FEM for single scattering problems Multiple scattering Related methods
5 iii Preconditioning the MOSA Macro Basis Functions Conclusion 151 A Formal construction of the double sweep preconditioner 155 B Integral representation of the fields (scalar case) 159 B.1 Boundary integral operators B.2 Dirichlet-to-Neumann map C Non-local approximation of the DtN map based on PMLs 165 C.1 Explicit construction of the DtN map from the black box C.2 DtN map approximation via probing C.3 Implicit application of the black blox D Numerical dispersion relation 169 Bibliography 171
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