پیشرفتها در الکترودینامیک محاسباتی: روش زمان-حوزه تفاضلی (کتابخانه آنتن آرتک هاوس)
Advances in Computational Electrodynamics: The Finite-Difference Time-Domain Method (Artech House Antenna Library)
معرفی کتاب «پیشرفتها در الکترودینامیک محاسباتی: روش زمان-حوزه تفاضلی (کتابخانه آنتن آرتک هاوس)» (با عنوان لاتین Advances in Computational Electrodynamics: The Finite-Difference Time-Domain Method (Artech House Antenna Library)) نوشتهٔ Taflove, Allen، منتشرشده توسط نشر Artech House Publishers در سال 1998. این کتاب در فرمت djvu، زبان انگلیسی ارائه شده است.
Edited by the pioneer and foremost authority on the subject, here is the first book to assemble in one resource the latest techniques and results of the leading theoreticians and practitioners of FD-TD computational electromagnetics modelling. Designed to build on his popular 1995 book, "Computational Electrodynamics: The Finite-Difference Time-Domain Method", the author describes and shows how to apply the latest advances in FD-TD in designing better-performing microwave and millimeter wave devices and circuits, high-speed digital circuits, VLSI-scale optical devices and ultra-wideband and smart antennas. This single expert source can also help solve a wide variety of problems in the following areas: imaging of underground and biological structures; evaluating the safety of wireless devices, including cellphones; bioelectromagnetics safety assessment and medical applications; and perfectly matched layer media, periodic media, high-order methods, multiresolution techniques and unstructured grids Finite-Difference Time-Domain (FD-TD) modeling is arguably the most popular and powerful means available to perform detailed electromagnetic engineering analyses. Edited by the pioneer and foremost authority on the subject, here is the first book to assemble in one resource the latest techniques and results of the leading theoreticians and practitioners of FD-TD computational electromagnetics modeling.
Designed to build on and complement the editor's popular 1995 book, Computational Electrodynamics: The Finite-Difference Time-Domain Method, this completely new work describes and shows how to apply the latest advances in FDTD to design better-performing antennas, microwave and millimeter wave devices and circuits, high-speed digital circuits, micron-scale optical devices, wireless personal communications devices, and inverse-scattering and imaging techniques. This new book is an excellent reference for practicing and future design engineers in electromagnetics, microwave theory and techniques, optics, and bioelectromagnetics.
Content: Ch. 1. A Survey of the Finite-Difference Time-Domain Literature -- Ch. 2. High-Order Methods -- Ch. 3. Time-Domain Analysis Using Multiresolution Expansions -- Ch. 4. Explicit Time-Domain Solutions of Maxwell's Equations via Generalized Grids -- Ch. 5. The Perfectly Matched Layer Absorbing Medium -- Ch. 6. Analysis of Periodic Structures -- Ch. 7. Modeling of Antennas -- Ch. 8. High-Speed Electronic Circuits with Active and Nonlinear Components -- Ch. 9. Physics-Based Modeling of Millimeter-Wave Devices -- Ch. 10. Microcavity Resonators -- Ch. 11. FDTD in Bioelectromagnetics: Safety Assessment and Medical Applications -- Ch. 12. Imaging and Inverse Problems in Electromagnetics. Gathers together the techniques and results of theoreticians and practitioners of FD-TD computational electromagnetics modelling. The text includes information on how to apply the latest advances in FD-TD to designing better-performing microwave and millimeter wave devices and circuits. The finite-difference time-domain (FDTD) method is arguably the most popular numerical method for the solution of problems in electromagnetics.
دانلود کتاب پیشرفتها در الکترودینامیک محاسباتی: روش زمان-حوزه تفاضلی (کتابخانه آنتن آرتک هاوس)
Designed to build on and complement the editor's popular 1995 book, Computational Electrodynamics: The Finite-Difference Time-Domain Method, this completely new work describes and shows how to apply the latest advances in FDTD to design better-performing antennas, microwave and millimeter wave devices and circuits, high-speed digital circuits, micron-scale optical devices, wireless personal communications devices, and inverse-scattering and imaging techniques. This new book is an excellent reference for practicing and future design engineers in electromagnetics, microwave theory and techniques, optics, and bioelectromagnetics.
Content: Ch. 1. A Survey of the Finite-Difference Time-Domain Literature -- Ch. 2. High-Order Methods -- Ch. 3. Time-Domain Analysis Using Multiresolution Expansions -- Ch. 4. Explicit Time-Domain Solutions of Maxwell's Equations via Generalized Grids -- Ch. 5. The Perfectly Matched Layer Absorbing Medium -- Ch. 6. Analysis of Periodic Structures -- Ch. 7. Modeling of Antennas -- Ch. 8. High-Speed Electronic Circuits with Active and Nonlinear Components -- Ch. 9. Physics-Based Modeling of Millimeter-Wave Devices -- Ch. 10. Microcavity Resonators -- Ch. 11. FDTD in Bioelectromagnetics: Safety Assessment and Medical Applications -- Ch. 12. Imaging and Inverse Problems in Electromagnetics. Gathers together the techniques and results of theoreticians and practitioners of FD-TD computational electromagnetics modelling. The text includes information on how to apply the latest advances in FD-TD to designing better-performing microwave and millimeter wave devices and circuits. The finite-difference time-domain (FDTD) method is arguably the most popular numerical method for the solution of problems in electromagnetics.