Electromagnetic And Photonic Simulation For The Beginner Finite Difference Frequency Domain In Matlab

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Electromagnetic and Photonic Simulation for the Beginner

Author : RAYMOND C. RUMPF
Publisher : Artech House Publishers
Page : 350 pages
File Size : 51,5 Mb
Release : 2022-01-31
Category : Electronic
ISBN : 1630819263

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Electromagnetic and Photonic Simulation for the Beginner by RAYMOND C. RUMPF Pdf

This forward-thinking book presents the finite-difference frequency-domain (FDFD) method. FDFD is the frequency-domain relative of the finite-difference time-domain (FDTD) method used for simulating electromagnetic and photonic devices. Special techniques in MATLAB(R) are presented that will allow readers to write their own FDFD programs, as well as review key concepts in electromagnetics. Guided modes in waveguides, photonic band diagrams, and isofrequency contours of periodic structures are explored. Readers learn how to simulate waves through diffraction gratings, beams through photonic crystals, and optical integrated circuits, as well as how to modify FDFD to easily perform parameter sweeps, such as plotting reflection and transmission through a device as a function of frequency. The book includes all of the required MATLAB codes and a detailed explanation of the programs to explain how to simulate devices in the real world.

Electromagnetic and Photonic Simulation for the Beginner: Finite-Difference Frequency-Domain in MATLAB®

Author : Raymond C. Rumpf
Publisher : Artech House
Page : 350 pages
File Size : 49,5 Mb
Release : 2022-01-31
Category : Technology & Engineering
ISBN : 9781630819279

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Electromagnetic and Photonic Simulation for the Beginner: Finite-Difference Frequency-Domain in MATLAB® by Raymond C. Rumpf Pdf

This book teaches the finite-difference frequency-domain (FDFD) method from the simplest concepts to advanced three-dimensional simulations. It uses plain language and high-quality graphics to help the complete beginner grasp all the concepts quickly and visually. This single resource includes everything needed to simulate a wide variety of different electromagnetic and photonic devices. The book is filled with helpful guidance and computational wisdom that will help the reader easily simulate their own devices and more easily learn and implement other methods in computational electromagnetics. Special techniques in MATLAB® are presented that will allow the reader to write their own FDFD programs. Key concepts in electromagnetics are reviewed so the reader can fully understand the calculations happening in FDFD. A powerful method for implementing the finite-difference method is taught that will enable the reader to solve entirely new differential equations and sets of differential equations in mere minutes. Separate chapters are included that describe how Maxwell’s equations are approximated using finite-differences and how outgoing waves can be absorbed using a perfectly matched layer absorbing boundary. With this background, a chapter describes how to calculate guided modes in waveguides and transmission lines. The effective index method is taught as way to model many three-dimensional devices in just two-dimensions. Another chapter describes how to calculate photonic band diagrams and isofrequency contours to quickly estimate the properties of periodic structures like photonic crystals. Next, a chapter presents how to analyze diffraction gratings and calculate the power coupled into each diffraction order. This book shows that many devices can be simulated in the context of a diffraction grating including guided-mode resonance filters, photonic crystals, polarizers, metamaterials, frequency selective surfaces, and metasurfaces. Plane wave sources, Gaussian beam sources, and guided-mode sources are all described in detail, allowing devices to be simulated in multiple ways. An optical integrated circuit is simulated using the effective index method to build a two-dimensional model of the 3D device and then launch a guided-mode source into the circuit. A chapter is included to describe how the code can be modified to easily perform parameter sweeps, such as plotting reflection and transmission as a function of frequency, wavelength, angle of incidence, or a dimension of the device. The last chapter is advanced and teaches FDFD for three-dimensional devices composed of anisotropic materials. It includes simulations of a crossed grating, a doubly-periodic guided-mode resonance filter, a frequency selective surface, and an invisibility cloak. The chapter also includes a parameter retrieval from a left-handed metamaterial. The book includes all the MATLAB codes and detailed explanations of all programs. This will allow the reader to easily modify the codes to simulate their own ideas and devices. The author has created a website where the MATLAB codes can be downloaded, errata can be seen, and other learning resources can be accessed. This is an ideal book for both an undergraduate elective course as well as a graduate course in computational electromagnetics because it covers the background material so well and includes examples of many different types of devices that will be of interest to a very wide audience.

The Finite-Difference Time-Domain Method for Electromagnetics with MATLAB® Simulations

Author : Atef Z. Elsherbeni,Veysel Demir
Publisher : IET
Page : 559 pages
File Size : 55,5 Mb
Release : 2015-11-25
Category : Science
ISBN : 9781613531754

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The Finite-Difference Time-Domain Method for Electromagnetics with MATLAB® Simulations by Atef Z. Elsherbeni,Veysel Demir Pdf

This is one of the best books on computational electromagnetics both for graduate students focusing on electromagnetics problems and for practicing engineering professionals in industry and government. It is designed as an advanced textbook and self-study guide to the FDTD method of solving EM problems and simulations. This latest edition has been expanded to include 5 entirely new chapters on advanced topics in the mainstream of FDTD practice. In addition to advanced techniques it also includes applications and examples, and some 'tricks and traps' of using MATLAB to achieve them. Compared to the previous version the second edition is more complete and is a good reference for someone who is performing FDTD research. This book is part of the ACES Series on Computational Electromagnetics and Engineering. Supplementary material can be found at the IET's ebook page Supplementary materials for professors are available upon request via email to [email protected].

Introduction to the Finite-Difference Time-Domain (FDTD) Method for Electromagnetics

Author : Stephen D. Gedney
Publisher : Morgan & Claypool Publishers
Page : 251 pages
File Size : 49,8 Mb
Release : 2011
Category : Computers
ISBN : 9781608455225

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Introduction to the Finite-Difference Time-Domain (FDTD) Method for Electromagnetics by Stephen D. Gedney Pdf

Provides a comprehensive tutorial of the most widely used method for solving Maxwell's equations - the Finite Difference Time-Domain Method. This book is an essential guide for students, researchers, and professional engineers. The book provides all the background required to either research or apply the FDTD method for the solution of Maxwell's equations to practical problems in engineering and science.

Plasmonic Optical Fiber Biosensors

Author : Christophe Caucheteur,Médéric Loyez
Publisher : Artech House
Page : 313 pages
File Size : 49,7 Mb
Release : 2023-04-30
Category : Technology & Engineering
ISBN : 9781630819729

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Plasmonic Optical Fiber Biosensors by Christophe Caucheteur,Médéric Loyez Pdf

This book provides a thorough vision of the current trends in plasmonic optical fiber biochemical sensing. It gathers the most recent technological information and shows the maturity reached by the different subsequent technologies. Demonstrating roadmaps for the design process and implementation of plasmonic optical fiber biochemical sensors, the book bridges the gap between theory and application. With this philosophy, understanding key physical properties is of paramount importance for the efficient design of sensing platforms that will meet target specifications. You will learn about the role of the fiber configuration and the functional coating on the properties of the resulting optrodes. You will also get an encompassing overview on all optical fiber configurations used for plasmonic sensing thus far, especially on the progress made over the last decade and rendering the technology compatible for use in real conditions. The book presents both fundamental aspects and advanced applications while focusing on recent and emerging fields of research, such as the use of tilted fiber Bragg gratings, the integration of sensors in situ, the use of smart interrogation techniques, and much more. This is a unique reference for both beginners and experts in optical fiber-based sensors, especially for industrial engineers working in biophotonics and biochemical sensing, as it presents state-of-the-art design procedures and sensing features. The book’s theoretical background combined with recent advances of plasmonic-based optical fiber technologies also make it highly beneficial for all researchers, academics, and students specialized or interested in this flourishing and promising discipline.

The Finite-difference Time-domain for Electromagnetics

Author : Atef Z. Elsherbeni,Veysel Demir
Publisher : Unknown
Page : 128 pages
File Size : 52,6 Mb
Release : 2016
Category : Antenna radiation patterns
ISBN : 1523102322

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The Finite-difference Time-domain for Electromagnetics by Atef Z. Elsherbeni,Veysel Demir Pdf

This book introduces the powerful Finite-Difference Time-Domain method to students and interested researchers and readers. An effective introduction is accomplished using a step-by-step process that builds competence and confidence in developing complete working codes for the design and analysis of various antennas and microwave devices.

Electromagnetic Simulation Using the FDTD Method with Python

Author : Jennifer E. Houle,Dennis M. Sullivan
Publisher : John Wiley & Sons
Page : 224 pages
File Size : 47,6 Mb
Release : 2020-01-15
Category : Science
ISBN : 9781119565802

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Electromagnetic Simulation Using the FDTD Method with Python by Jennifer E. Houle,Dennis M. Sullivan Pdf

Provides an introduction to the Finite Difference Time Domain method and shows how Python code can be used to implement various simulations This book allows engineering students and practicing engineers to learn the finite-difference time-domain (FDTD) method and properly apply it toward their electromagnetic simulation projects. Each chapter contains a concise explanation of an essential concept and instruction on its implementation into computer code. Included projects increase in complexity, ranging from simulations in free space to propagation in dispersive media. This third edition utilizes the Python programming language, which is becoming the preferred computer language for the engineering and scientific community. Electromagnetic Simulation Using the FDTD Method with Python, Third Edition is written with the goal of enabling readers to learn the FDTD method in a manageable amount of time. Some basic applications of signal processing theory are explained to enhance the effectiveness of FDTD simulation. Topics covered in include one-dimensional simulation with the FDTD method, two-dimensional simulation, and three-dimensional simulation. The book also covers advanced Python features and deep regional hyperthermia treatment planning. Electromagnetic Simulation Using the FDTD Method with Python: Guides the reader from basic programs to complex, three-dimensional programs in a tutorial fashion Includes a rewritten fifth chapter that illustrates the most interesting applications in FDTD and the advanced graphics techniques of Python Covers peripheral topics pertinent to time-domain simulation, such as Z-transforms and the discrete Fourier transform Provides Python simulation programs on an accompanying website An ideal book for senior undergraduate engineering students studying FDTD, Electromagnetic Simulation Using the FDTD Method with Python will also benefit scientists and engineers interested in the subject.

Raman Spectroscopy

Author : Dheeraj Kumar Singh
Publisher : Springer Nature
Page : 388 pages
File Size : 51,9 Mb
Release : 2024-06-10
Category : Electronic
ISBN : 9789819717033

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Raman Spectroscopy by Dheeraj Kumar Singh Pdf

Double-Grid Finite-Difference Frequency-Domain (DG-FDFD) Method for Scattering from Chiral Objects

Author : Erdogan Alkan,Veysel Demir,Atef Elsherbeni
Publisher : Morgan & Claypool Publishers
Page : 131 pages
File Size : 43,9 Mb
Release : 2013
Category : Mathematics
ISBN : 9781627051453

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Double-Grid Finite-Difference Frequency-Domain (DG-FDFD) Method for Scattering from Chiral Objects by Erdogan Alkan,Veysel Demir,Atef Elsherbeni Pdf

This book presents the application of the overlapping grids approach to solve chiral material problems using the FDFD method. Due to the two grids being used in the technique, we will name this method as Double-Grid Finite Difference Frequency-Domain (DG-FDFD) method. As a result of this new approach the electric and magnetic field components are defined at every node in the computation space. Thus, there is no need to perform averaging during the calculations as in the aforementioned FDFD technique [16]. We formulate general 3D frequency-domain numerical methods based on double-grid (DG-FDFD) approach for general bianisotropic materials. The validity of the derived formulations for different scattering problems has been shown by comparing the obtained results to exact and other solutions obtained using different numerical methods.

Numerical Methods in Photonics

Author : Andrei V. Lavrinenko,Jesper Lægsgaard,Niels Gregersen,Frank Schmidt,Thomas Søndergaard
Publisher : CRC Press
Page : 362 pages
File Size : 54,8 Mb
Release : 2018-09-03
Category : Science
ISBN : 9781466563896

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Numerical Methods in Photonics by Andrei V. Lavrinenko,Jesper Lægsgaard,Niels Gregersen,Frank Schmidt,Thomas Søndergaard Pdf

Simulation and modeling using numerical methods is one of the key instruments in any scientific work. In the field of photonics, a wide range of numerical methods are used for studying both fundamental optics and applications such as design, development, and optimization of photonic components. Modeling is key for developing improved photonic devices and reducing development time and cost. Choosing the appropriate computational method for a photonics modeling problem requires a clear understanding of the pros and cons of the available numerical methods. Numerical Methods in Photonics presents six of the most frequently used methods: FDTD, FDFD, 1+1D nonlinear propagation, modal method, Green’s function, and FEM. After an introductory chapter outlining the basics of Maxwell’s equations, the book includes self-contained chapters that focus on each of the methods. Each method is accompanied by a review of the mathematical principles in which it is based, along with sample scripts, illustrative examples of characteristic problem solving, and exercises. MATLAB® is used throughout the text. This book provides a solid basis to practice writing your own codes. The theoretical formulation is complemented by sets of exercises, which allow you to grasp the essence of the modeling tools.

The Finite Difference Time Domain Method for Electromagnetics

Author : Karl S. Kunz,Raymond J. Luebbers
Publisher : CRC Press
Page : 464 pages
File Size : 53,9 Mb
Release : 2018-05-04
Category : Science
ISBN : 9781351410489

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The Finite Difference Time Domain Method for Electromagnetics by Karl S. Kunz,Raymond J. Luebbers Pdf

The Finite-Difference Time-domain (FDTD) method allows you to compute electromagnetic interaction for complex problem geometries with ease. The simplicity of the approach coupled with its far-reaching usefulness, create the powerful, popular method presented in The Finite Difference Time Domain Method for Electromagnetics. This volume offers timeless applications and formulations you can use to treat virtually any material type and geometry. The Finite Difference Time Domain Method for Electromagnetics explores the mathematical foundations of FDTD, including stability, outer radiation boundary conditions, and different coordinate systems. It covers derivations of FDTD for use with PEC, metal, lossy dielectrics, gyrotropic materials, and anisotropic materials. A number of applications are completely worked out with numerous figures to illustrate the results. It also includes a printed FORTRAN 77 version of the code that implements the technique in three dimensions for lossy dielectric materials. There are many methods for analyzing electromagnetic interactions for problem geometries. With The Finite Difference Time Domain Method for Electromagnetics, you will learn the simplest, most useful of these methods, from the basics through to the practical applications.

Multiresolution Frequency Domain Technique for Electromagnetics

Author : Mesut Gökten,Atef Elsherbeni,Ercument Arvas
Publisher : Springer Nature
Page : 124 pages
File Size : 48,9 Mb
Release : 2022-06-01
Category : Technology & Engineering
ISBN : 9783031017148

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Multiresolution Frequency Domain Technique for Electromagnetics by Mesut Gökten,Atef Elsherbeni,Ercument Arvas Pdf

In this book, a general frequency domain numerical method similar to the finite difference frequency domain (FDFD) technique is presented. The proposed method, called the multiresolution frequency domain (MRFD) technique, is based on orthogonal Battle-Lemarie and biorthogonal Cohen-Daubechies-Feauveau (CDF) wavelets. The objective of developing this new technique is to achieve a frequency domain scheme which exhibits improved computational efficiency figures compared to the traditional FDFD method: reduced memory and simulation time requirements while retaining numerical accuracy. The newly introduced MRFD scheme is successfully applied to the analysis of a number of electromagnetic problems, such as computation of resonance frequencies of one and three dimensional resonators, analysis of propagation characteristics of general guided wave structures, and electromagnetic scattering from two dimensional dielectric objects. The efficiency characteristics of MRFD techniques based on different wavelets are compared to each other and that of the FDFD method. Results indicate that the MRFD techniques provide substantial savings in terms of execution time and memory requirements, compared to the traditional FDFD method. Table of Contents: Introduction / Basics of the Finite Difference Method and Multiresolution Analysis / Formulation of the Multiresolution Frequency Domain Schemes / Application of MRFD Formulation to Closed Space Structures / Application of MRFD Formulation to Open Space Structures / A Multiresolution Frequency Domain Formulation for Inhomogeneous Media / Conclusion

Multiresolution Frequency Domain Technique for Electromagnetics

Author : Mesut Gokten,Atef Z. Elsherbeni,Ercument Arvas
Publisher : Morgan & Claypool Publishers
Page : 137 pages
File Size : 53,6 Mb
Release : 2012
Category : Science
ISBN : 9781627050159

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Multiresolution Frequency Domain Technique for Electromagnetics by Mesut Gokten,Atef Z. Elsherbeni,Ercument Arvas Pdf

Presents a general frequency domain numerical method similar to the finite difference frequency domain (FDFD) technique. The objective of developing this new technique is to achieve a frequency domain scheme which exhibits improved computational efficiency figures compared to the traditional FDFD method.

The Finite-difference Time-domain Method for Electromagnetics with MATLAB Simulations

Author : Atef Z. Elsherbeni,Veysel Demir
Publisher : Scitech Pub Incorporated
Page : 425 pages
File Size : 48,7 Mb
Release : 2009
Category : Technology & Engineering
ISBN : 1891121715

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The Finite-difference Time-domain Method for Electromagnetics with MATLAB Simulations by Atef Z. Elsherbeni,Veysel Demir Pdf

Helping students to construct a program with sufficient functionality to solve some basic problems, this book presents the construction of equations accompanied by 3D illustrations. It also explains the transformation of the concepts into programming.

Plasmonic Nanoelectronics and Sensing

Author : Er-Ping Li,Hong-Son Chu
Publisher : Cambridge University Press
Page : 264 pages
File Size : 49,7 Mb
Release : 2014-02-13
Category : Science
ISBN : 9781107729278

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Plasmonic Nanoelectronics and Sensing by Er-Ping Li,Hong-Son Chu Pdf

Plasmonic nanostructures provide new ways of manipulating the flow of light with nanostructures and nanoparticles exhibiting optical properties never before seen in the macro-world. Covering plasmonic technology from fundamental theory to real world applications, this work provides a comprehensive overview of the field. • Discusses the fundamental theory of plasmonics, enabling a deeper understanding of plasmonic technology • Details numerical methods for modeling, design and optimization of plasmonic nanostructures • Includes step-by-step design guidelines for active and passive plasmonic devices, demonstrating the implementation of real devices in the standard CMOS nanoscale electronic-photonic integrated circuit to help cut design, fabrication and characterisation time and cost • Includes real-world case studies of plasmonic devices and sensors, explaining the benefits and downsides of different nanophotonic integrated circuits and sensing platforms. Ideal for researchers, engineers and graduate students in the fields of nanophotonics and nanoelectronics as well as optical biosensing.