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Item #:
101629941
Electromagnetic and Photonic Simulation for the Beginner: Finite-Difference Frequency-Domain in MATLAB(R) (Applied Photonics Library) Unabridged
Item #:
101629941
MYR 742
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This 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.
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What Stands Out
Beginner-Friendly
Designed specifically for beginners, this book simplifies complex concepts in electromagnetic and photonic simulation, making it accessible for those with little prior knowledge.
MATLAB Integration
Utilizes MATLAB (R) for practical examples, offering readers hands-on experience and a powerful tool for executing finite-difference frequency-domain simulations.
Applied Photonics Focus
Part of the Applied Photonics Library, it directly addresses real-world applications, bridging the gap between theory and practical implementation in photonics technology.
Product Details
- 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(R) 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.
| Publisher | Artech House |
| Publication date | January 31, 2022 |
| Edition | Unabridged |
| Language | English |
| Print length | 354 pages |
| ISBN-10 | 1630819263 |
| ISBN-13 | 978-1630819262 |
| Item Weight | 2 pounds (910 grams) |
| Dimensions | 7.25 x 1 x 10.25 inches (18.4 x 2.5 x 26 cm) |
Who Should Buy?
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Beginners in EM
Ideal for newcomers to electromagnetic simulation seeking a comprehensive introduction to FDFD techniques in MATLAB.
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Students and Teachers
Useful for students and educators in photonics, providing foundational knowledge and clear examples for effective learning.
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Self-Learners
Great resource for individuals pursuing self-study in photonics and electromagnetic simulations, with practical examples and guidance.
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Advanced Researchers
Not suitable for experienced researchers seeking cutting-edge techniques or advanced simulations beyond the beginner level.
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Non-MATLAB Users
Those unfamiliar with MATLAB may struggle since the book focuses on simulations specifically using this programming language.
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Quick Reference Needs
Not ideal for users seeking a quick reference or concise solutions; the book offers detailed, in-depth explanations.
Product Description
Have any Query? Chat with us
Customer Questions & Answers
-
Question:
What topics are covered in 'Electromagnetic and Photonic Simulation for the Beginner'?
Answer: The book provides comprehensive coverage of electromagnetic and photonic simulations using the finite-difference frequency-domain method in MATLAB. It delves into the fundamental principles of photonics, as well as practical applications, including waveguides, resonators, and nano-optics. By presenting both theoretical concepts and hands-on tutorials, it empowers readers to construct their simulations and understand advanced topics in modern optics. -
Question:
What is the target audience for this book?
Answer: This book is specifically tailored for beginners in the field of electromagnetic and photonic simulation. It caters to students, researchers, and professionals seeking to gain foundational knowledge and practical skills. The accessible writing style and structured approach make it ideal for self-learners as well as those integrating this subject into formal studies. -
Question:
Is prior MATLAB knowledge required to use this book effectively?
Answer: No prior MATLAB knowledge is strictly required, although it can be beneficial. The book includes introductory sections on MATLAB programming, ensuring that readers unfamiliar with the software can follow along with the examples. This approach allows beginners to develop both coding skills and an understanding of simulation techniques simultaneously. -
Question:
Can this book be used for self-study?
Answer: Absolutely! The book is designed for self-study, featuring clear explanations, examples, and practice problems that allow readers to learn at their own pace. Each chapter builds upon previous content, making it straightforward for individuals to track their progress and master the material effectively. -
Question:
What practical applications does this book explore?
Answer: The book explores a variety of practical applications in the realm of photonics, including the design of waveguides, photonic crystals, and light-absorbing structures. These examples not only illustrate theoretical concepts but also help users gain a real-world understanding of how electromagnetic and photonic principles are implemented in current technology. -
Question:
Are there supplementary materials available with the book?
Answer: Yes, the book often comes with supplementary materials, including MATLAB codes and simulation files that readers can use to practice. These resources facilitate hands-on learning and reinforce the concepts covered in each chapter, making it easier to apply theory to practical scenarios. -
Question:
What is the finite-difference frequency-domain method?
Answer: The finite-difference frequency-domain (FDFD) method is a numerical technique used for solving wave equations in electromagnetic fields. This approach allows for the modeling of complex structures in photonics by discretizing the spatial domain into a grid and solving for field distributions. It’s particularly valuable for simulating intricate geometries that are challenging to analyze using traditional methods. -
Question:
In what ways can the book benefit students in engineering programs?
Answer: Students in engineering programs focusing on optics, telecommunications, or materials science can greatly benefit from this book. It provides foundational knowledge, practical skills in simulations, and an understanding of theoretical principles applicable to real-world challenges. This makes it a credible resource for project work, thesis research, or coursework. -
Question:
How does the book help with understanding advanced optical concepts?
Answer: The book lays a solid foundation before transitioning to advanced optical concepts, guiding readers through complex topics in a structured manner. By including detailed examples of advanced simulations, readers can visualize phenomena and solidify their understanding of topics such as plasmonics and metamaterials, which are essential in contemporary photonics research. -
Question:
Where can I buy 'Electromagnetic and Photonic Simulation for the Beginner' in Malaysia?
Answer: You can purchase 'Electromagnetic and Photonic Simulation for the Beginner: Finite-Difference Frequency-Domain in MATLAB' in Malaysia at Ubuy. Ubuy is an online retailer that offers a vast selection of books in various categories, providing a convenient shopping experience for acquiring this essential guide for budding professionals in photonics.
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Pros
- Clear and easy-to-follow examples
- Comprehensive introduction to concepts
- Useful for MATLAB beginners
- Well-organized structure
- Engaging writing style
Cons
- A few advanced topics could be simplified.
Product Price History
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MYR 742
Order now and get it around Wednesday, June 24
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Ubuy works hard to protect your security and privacy. Our advanced payment security system ensures confidentiality by encrypting your information during transmission using AES (Advanced Encryption Standards) and SSL (Secure Socket Layer) protocols. Your payment details are 100% secure as we do not share your payment details with third party sellers.
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Features & Benefits
- Comprehensive guide on finite-difference frequency-domain (FDFD) method.
- Teaches from basic concepts to advanced three-dimensional simulations.
- Includes practical techniques for creating custom FDFD programs in MATLAB.
- Visual aids and clear language make complex topics accessible for beginners.
- Covers a range of electromagnetic and photonic devices simulations.
- Equips readers with skills to quickly analyze and implement various computational methods.