Description

Book Synopsis
This publication provides a comprehensive and systematically organized coverage of higher order finite-difference time-domain or FDTD schemes, demonstrating their potential role as a powerful modeling tool in computational electromagnetics. Special emphasis is drawn on the analysis of contemporary waveguide and antenna structures. Acknowledged as a significant breakthrough in the evolution of the original Yee's algorithm, the higher order FDTD operators remain the subject of an ongoing scientific research. Among their indisputable merits, one can distinguish the enhanced levels of accuracy even for coarse grid resolutions, the fast convergence rates, and the adjustable stability. In fact, as the fabrication standards of modern systems get stricter, it is apparent that such properties become very appealing for the accomplishment of elaborate and credible designs.

Table of Contents
Introduction.- Conventional Higher Order FDTD Differentiation.- Higher Order Nonstandard FDTD Methodology.- Absorbing Boundary Conditions andWidened Spatial Stencils.- Structural Extensions and Temporal Integration.- Hybrid and Alternative Higher Order FDTD Schemes.- Selected Applications in Waveguide Systems.- Selected Applications in Antenna Structures.

Higher-Order FDTD Schemes for Waveguides and Antenna Structures

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    A Paperback by Nikolaos V. Kantartzis, Theodoros D. Tsiboukis

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      View other formats and editions of Higher-Order FDTD Schemes for Waveguides and Antenna Structures by Nikolaos V. Kantartzis

      Publisher: Springer International Publishing AG
      Publication Date: 31/12/2007
      ISBN13: 9783031005602, 978-3031005602
      ISBN10: 3031005600

      Description

      Book Synopsis
      This publication provides a comprehensive and systematically organized coverage of higher order finite-difference time-domain or FDTD schemes, demonstrating their potential role as a powerful modeling tool in computational electromagnetics. Special emphasis is drawn on the analysis of contemporary waveguide and antenna structures. Acknowledged as a significant breakthrough in the evolution of the original Yee's algorithm, the higher order FDTD operators remain the subject of an ongoing scientific research. Among their indisputable merits, one can distinguish the enhanced levels of accuracy even for coarse grid resolutions, the fast convergence rates, and the adjustable stability. In fact, as the fabrication standards of modern systems get stricter, it is apparent that such properties become very appealing for the accomplishment of elaborate and credible designs.

      Table of Contents
      Introduction.- Conventional Higher Order FDTD Differentiation.- Higher Order Nonstandard FDTD Methodology.- Absorbing Boundary Conditions andWidened Spatial Stencils.- Structural Extensions and Temporal Integration.- Hybrid and Alternative Higher Order FDTD Schemes.- Selected Applications in Waveguide Systems.- Selected Applications in Antenna Structures.

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