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Advances in Time-Domain Computational Electromagnetic Methods
Discover state-of-the-art time domain electromagnetic modeling and simulation algorithms Advances in Time-Domain Computational Electromagnetic Methods delivers a thorough exploration of recent developments in time domain computational methods for solving complex electromagnetic problems. The book discuses the main time domain computational electromagnetics techniques, including finite-difference time domain (FDTD), finite-element time domain (FETD), discontinuous Galerkin time domain (DGTD), time domain integral equation (TDIE), and other methods in electromagnetic, multiphysics modeling and simulation, and antenna designs. The book bridges the gap between academic research and real engineer...
Theory and Computation of Electromagnetic Fields in Layered Media
Explore the algorithms and numerical methods used to compute electromagnetic fields in multi-layered media In Theory and Computation of Electromagnetic Fields in Layered Media, two distinguished electrical engineering researchers deliver a detailed and up-to-date overview of the theory and numerical methods used to determine electromagnetic fields in layered media. The book begins with an introduction to Maxwell’s equations, the fundamentals of electromagnetic theory, and concepts and definitions relating to Green’s function. It then moves on to solve canonical problems in vertical and horizontal dipole radiation, describe Method of Moments schemes, discuss integral equations governing e...
Nano-Interconnect Materials and Models for Next Generation Integrated Circuit Design
Aggressive scaling of device and interconnect dimensions has resulted in many low dimensional issues in the nanometer regime. This book deals with various new generation interconnect materials and interconnect modeling and highlights the significance of novel nano interconnect materials for 3D integrated circuit design. It provides information about advanced nanomaterials like carbon nanotube (CNT) and graphene nanoribbon (GNR) for the realization of interconnects, interconnect models, and crosstalk noise analysis. Features: Focusses on materials and nanomaterials utilization in next generation interconnects based on Carbon nanotubes (CNT) and Graphene nanoribbons (GNR). Helps readers realize interconnects, interconnect models, and crosstalk noise analysis. Describes Hybrid CNT and GNR based interconnects. Presents the details of power supply voltage drop analysis in CNT and GNR interconnects. Overviews pertinent RF performance and stability analysis. This book is aimed at graduate students and researchers in electrical and materials engineering, nano/microelectronics.
Introduction to Microwave Circuits
"Do you want to design a wireless transmitter or receiver for hand-held telephones? Have you wondered why the printed circuit wires on high-frequency circuits don't always run in a straight line? This valuable text will answer all of your questions regarding component parasitics and circuit characterization for rf/microwave amplifier, oscillator, and filter circuit design and analysis. You will understand why capacitors act as inductors and vice versa and why amplifiers work like oscillators, while oscillators for local area networks work more like local area heaters. Application of the information in Introduction to Microwave Circuits will reduce design-cycle time and costs, markedly increa...
Scientific and Technical Aerospace Reports
Lists citations with abstracts for aerospace related reports obtained from world wide sources and announces documents that have recently been entered into the NASA Scientific and Technical Information Database.
Human Interaction with Electromagnetic Fields
Human Interaction with Electromagnetic Fields: Computational Models in Dosimetry presents some highly rigorous and sophisticated integral equation techniques from computational electromagnetics (CEM), along with practical techniques for the calculation and measurement of internal dosimetry. Theory is accompanied by numerical modeling algorithms and illustrative computational examples that range from academic to full real-world scenarios. - Covers both deterministic and stochastic modeling - Presents implementations of integral equation approaches, overcoming the limitations of the FDTD approach - Presents various biomedical applications
Evaluating Performance Information for Mapping Algorithms to Advanced Architectures
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Foundations of Antenna Radiation Theory
Foundations of Antenna Radiation Theory Understand the theory and function of wireless antennas with this comprehensive guide As wireless technology continues to develop, understanding of antenna properties and performance will only become more critical. Since antennas can be understood as junctions of waveguides, eigenmode analysis—the foundation of waveguide theory, concerned with the unexcited states of systems and their natural resonant characteristics—promises to be a crucial frontier in the study of antenna theory. Foundations of Antenna Radiation Theory incorporates the modal analysis, generic antenna properties and design methods discovered or developed in the last few decades, n...
