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Synopsis
This book presents the perfectly matched layer (PML) absorbing boundary condition (ABC) used to simulate the surrounding free space when solving the Maxwell equations with such finite methods as the finite difference time domain (FDTD) method or the finite element method. The frequency domain and the time domain equations are derived for the different forms of PML media, namely the split PML, the CPML, the NPML, and the uniaxial PML, in the cases of PMLs matched to isotropic, anisotropic, and dispersive media. The implementation of the PML ABC in the FDTD method is described with details. Propagation and reflection of waves in the discretized FDTD space are derived and discussed, with a special emphasize on the problem of evanescent waves. The optimization of the PML ABC is described for two typical applications of the FDTD method, firstly wave-structure interaction problems, secondly waveguide problems. A review of the literature on the application of the PML ABC to other numerical techniques of electromagnetics and to other partial differential equations of physics is provided.
Finally, the design of PMLs suited to actual applications is revisited in the context of computers of the 2020’s that are, by far, more powerful than the computers of the 1990’s when the PML ABC was introduced. A simple and general-purpose method is described to design the PML in this current context.
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À propos de l?auteur
Jean-Pierre Bérenger received a Master in Physics from the Joseph Fourier University, Grenoble, France, in 1973, and a Master in Optical Engineering from the Institut d'Optique Graduate School, Paris, France, in 1975. From 1975 to 2013 he was with the Direction Générale de l'Armement (DGA) of the French Ministry of Defense. During years 1975-1988 he was engaged in applied research in the field of the electromagnetic effects of nuclear bursts. From 1988 to 1998 he held a position as an expert on the effects of nuclear bursts on radio communications, and from 1998 to 2013 he was a manager of prospective studies in the field of command, control, and communications. From 2013 to 2023 he was a visiting Professor with the University of Manchester, UK, and from 2013 he has been a consultant on numerical methods and on the electromagnetic effects of nuclear rays. Most of the works published by Jean-Pierre Bérenger in the scientific literature concern the FDTD method, the absorbing boundary conditions, and the propagation of VLF-LF radiowaves over the Earth surface. He was the recipient of the 2013 Medal of URSI-France and of the 2014 John Dellinger Gold Medal of URSI. He is a Fellow of IEEE and URSI.
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Perfectly Matched Layer (PML) for Computational Electromagnetics
Edité par
Springer Verlag GmbH, 2025
ISBN 10 : 3031744497
ISBN 13 : 9783031744495
Neuf
Couverture rigide
Vendeur : moluna, Greven, Allemagne
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Perfectly Matched Layer (PML) for Computational Electromagnetics
Edité par
Springer Nature Switzerland, Springer Nature Switzerland, 2025
ISBN 10 : 3031744497
ISBN 13 : 9783031744495
Neuf
Couverture rigide
Vendeur : AHA-BUCH GmbH, Einbeck, Allemagne
Évaluation du vendeur 5 sur 5 étoiles
Buch. Etat : Neu. Druck auf Anfrage Neuware - Printed after ordering - This book presents the perfectly matched layer (PML) absorbing boundary condition (ABC) used to simulate the surrounding free space when solving the Maxwell equations with such finite methods as the finite difference time domain (FDTD) method or the finite element method. The frequency domain and the time domain equations are derived for the different forms of PML media, namely the split PML, the CPML, the NPML, and the uniaxial PML, in the cases of PMLs matched to isotropic, anisotropic, and dispersive media. The implementation of the PML ABC in the FDTD method is described with details. Propagation and reflection of waves in the discretized FDTD space are derived and discussed, with a special emphasize on the problem of evanescent waves. The optimization of the PML ABC is described for two typical applications of the FDTD method, firstly wave-structure interaction problems, secondly waveguide problems. A review of the literature on the application of the PML ABC to other numerical techniques of electromagnetics and to other partial differential equations of physics is provided.Finally, the design of PMLs suited to actual applications is revisited in the context of computers of the 2020's that are, by far, more powerful than the computers of the 1990's when the PML ABC was introduced. A simple and general-purpose method is described to design the PML in this current context. N° de réf. du vendeur 9783031744495
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Perfectly Matched Layer (PML) for Computational Electromagnetics
ISBN 10 : 3031744497
ISBN 13 : 9783031744495
Neuf
Couverture rigide
Vendeur : BuchWeltWeit Ludwig Meier e.K., Bergisch Gladbach, Allemagne
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Buch. Etat : Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -This book presents the perfectly matched layer (PML) absorbing boundary condition (ABC) used to simulate the surrounding free space when solving the Maxwell equations with such finite methods as the finite difference time domain (FDTD) method or the finite element method. The frequency domain and the time domain equations are derived for the different forms of PML media, namely the split PML, the CPML, the NPML, and the uniaxial PML, in the cases of PMLs matched to isotropic, anisotropic, and dispersive media. The implementation of the PML ABC in the FDTD method is described with details. Propagation and reflection of waves in the discretized FDTD space are derived and discussed, with a special emphasize on the problem of evanescent waves. The optimization of the PML ABC is described for two typical applications of the FDTD method, firstly wave-structure interaction problems, secondly waveguide problems. A review of the literature on the application of the PML ABC to other numerical techniques of electromagnetics and to other partial differential equations of physics is provided.Finally, the design of PMLs suited to actual applications is revisited in the context of computers of the 2020's that are, by far, more powerful than the computers of the 1990's when the PML ABC was introduced. A simple and general-purpose method is described to design the PML in this current context. 148 pp. Englisch. N° de réf. du vendeur 9783031744495
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Perfectly Matched Layer (PML) for Computational Electromagnetics
ISBN 10 : 3031744497
ISBN 13 : 9783031744495
Neuf
Couverture rigide
Vendeur : buchversandmimpf2000, Emtmannsberg, BAYE, Allemagne
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Buch. Etat : Neu. Neuware -This book presents the perfectly matched layer (PML) absorbing boundary condition (ABC) used to simulate the surrounding free space when solving the Maxwell equations with such finite methods as the finite difference time domain (FDTD) method or the finite element method. The frequency domain and the time domain equations are derived for the different forms of PML media, namely the split PML, the CPML, the NPML, and the uniaxial PML, in the cases of PMLs matched to isotropic, anisotropic, and dispersive media. The implementation of the PML ABC in the FDTD method is described with details. Propagation and reflection of waves in the discretized FDTD space are derived and discussed, with a special emphasize on the problem of evanescent waves. The optimization of the PML ABC is described for two typical applications of the FDTD method, firstly wave-structure interaction problems, secondly waveguide problems. A review of the literature on the application of the PML ABC to other numerical techniques of electromagnetics and to other partial differential equations of physics is provided.Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg 148 pp. Englisch. N° de réf. du vendeur 9783031744495
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Perfectly Matched Layer (PML) for Computational Electromagnetics
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Perfectly Matched Layer (PML) for Computational Electromagnetics
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Perfectly Matched Layer (PML) for Computational Electromagnetics
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Perfectly Matched Layer Pml for Computational Electromagnetics
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Perfectly Matched Layer (PML) for Computational Electromagnetics (Hardcover)
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Springer International Publishing AG, Cham, 2025
ISBN 10 : 3031744497
ISBN 13 : 9783031744495
Neuf
Couverture rigide
Vendeur : Grand Eagle Retail, Mason, OH, Etats-Unis
Évaluation du vendeur 5 sur 5 étoiles
Hardcover. Etat : new. Hardcover. This book presents the perfectly matched layer (PML) absorbing boundary condition (ABC) used to simulate the surrounding free space when solving the Maxwell equations with such finite methods as the finite difference time domain (FDTD) method or the finite element method. The frequency domain and the time domain equations are derived for the different forms of PML media, namely the split PML, the CPML, the NPML, and the uniaxial PML, in the cases of PMLs matched to isotropic, anisotropic, and dispersive media. The implementation of the PML ABC in the FDTD method is described with details. Propagation and reflection of waves in the discretized FDTD space are derived and discussed, with a special emphasize on the problem of evanescent waves. The optimization of the PML ABC is described for two typical applications of the FDTD method, firstly wave-structure interaction problems, secondly waveguide problems. A review of the literature on the application of the PML ABC to other numerical techniques of electromagnetics and to other partial differential equations of physics is provided.Finally, the design of PMLs suited to actual applications is revisited in the context of computers of the 2020s that are, by far, more powerful than the computers of the 1990s when the PML ABC was introduced. A simple and general-purpose method is described to design the PML in this current context. This book presents the perfectly matched layer (PML) absorbing boundary condition (ABC) used to simulate the surrounding free space when solving the Maxwell equations with such finite methods as the finite difference time domain (FDTD) method or the finite element method. Shipping may be from multiple locations in the US or from the UK, depending on stock availability. N° de réf. du vendeur 9783031744495
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