A Time Domain Vector Finite Element Method For The Full Wave Simulation Of Nonlinear Photonic Devices
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Numerical Methods in Photonics
| Author | : Andrei V. Lavrinenko |
| Publisher | : CRC Press |
| Total Pages | : 206 |
| Release | : 2018-09-03 |
| Genre | : Science |
| ISBN | : 135183200X |
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.
Finite Element Modeling Methods for Photonics
| Author | : B. M. Azizur Rahman |
| Publisher | : Artech House |
| Total Pages | : 265 |
| Release | : 2013-08-01 |
| Genre | : Technology & Engineering |
| ISBN | : 1608075311 |
The term photonics can be used loosely to refer to a vast array of components, devices, and technologies that in some way involve manipulation of light. One of the most powerful numerical approaches available to engineers developing photonic components and devices is the Finite Element Method (FEM), which can be used to model and simulate such components/devices and analyze how they will behave in response to various outside influences. This resource provides a comprehensive description of the formulation and applications of FEM in photonics applications ranging from telecommunications, astronomy, and sensing, to chemistry, imaging, and biomedical R&D. This book emphasizes practical, problem-solving applications and includes real-world examples to assist readers in understanding how mathematical concepts translate to computer code for finite element-based methods applicable to a range of photonic structures. In addition, this is the perfect support to anyone using the COMSOL Multiphysics© RF Module.
Finite Element Methods for Nonlinear Optical Waveguides
| Author | : Xin-Hua Wang |
| Publisher | : Routledge |
| Total Pages | : 292 |
| Release | : 2019-06-14 |
| Genre | : Technology & Engineering |
| ISBN | : 1351448587 |
This book provides researchers at the forefront of nonlinear optical technologies with robust procedures and software for the systematic investigation of the fundamental phenomena in nonlinear optical waveguide structures. A full vectorial electromagnetic formulation is adopted and the conditions under which simplification to a scalar formulation is possible are clearly indicated. The need to model the dielectric saturation properly is identified, and improved algorithms are presented for obtaining the complete power dispersion curve of structures exhibiting bistability. As the stability analysis of nonlinear modes is crucial to the development of nonlinear model methods, an effective procedure to investigate the propagation of the scalar nonlinear waves in 3D is another important feature of the book. All of the procedures described, as well as an automatic mesh generator for the finite element method, are incorporated into a software package which is included with this book.
Advances in Nonlinear Photonics
| Author | : Giancarlo C. Righini |
| Publisher | : Elsevier |
| Total Pages | : 564 |
| Release | : 2023-05-03 |
| Genre | : Science |
| ISBN | : 0323985807 |
Advances in Nonlinear Photonics combines fundamental principles with an overview of the latest developments. The book is suitable for the multidisciplinary audience of photonics researchers and practitioners in academia and R&D, including materials scientists and engineers, applied physicists, chemists, etc. As nonlinear phenomena are at the core of photonic devices and may enable future applications such as all-optical switching, all-optical signal processing and quantum photonics, this book provides an overview of key concepts. In addition, the book reviews the most important advances in the field and how nonlinear processes may be exploited in different photonic applications. Introduces fundamental principles of nonlinear phenomena and their application in materials and devices Reviews and provides definitions of the latest research directions in the field of nonlinear photonics Discusses the most important developments in materials and applications, including future prospects
Nano-Optics
| Author | : Sabu Thomas |
| Publisher | : Elsevier |
| Total Pages | : 376 |
| Release | : 2020-07-06 |
| Genre | : Technology & Engineering |
| ISBN | : 0128183934 |
Nano-Optics: Fundamentals, Experimental Methods, and Applications offers insights into the fundamentals and industrial applications of nanoscale light-emitting materials and their composites. This book serves as a reference, offering an overview of existing research, with a particular focus on industrial applications. Nano-optics is the branch of nanoscience and nanotechnology that deals with interaction of light with nanoscale objects. This book explores the materials, structure, manufacturing techniques, and industrial applications of nano-optics. The applications discussed include healthcare, communication, astronomy, and satellites. Explains the major manufacturing techniques for light-emitting nanoscale materials Discusses how nanoscale optical materials are being used in a range of industrial applications Assesses the challenges of using nano-optics in a mass-production context
Finite Element and Discontinuous Galerkin Methods for Transient Wave Equations
| Author | : Gary Cohen |
| Publisher | : Springer |
| Total Pages | : 393 |
| Release | : 2016-08-05 |
| Genre | : Technology & Engineering |
| ISBN | : 9401777616 |
This monograph presents numerical methods for solving transient wave equations (i.e. in time domain). More precisely, it provides an overview of continuous and discontinuous finite element methods for these equations, including their implementation in physical models, an extensive description of 2D and 3D elements with different shapes, such as prisms or pyramids, an analysis of the accuracy of the methods and the study of the Maxwell’s system and the important problem of its spurious free approximations. After recalling the classical models, i.e. acoustics, linear elastodynamics and electromagnetism and their variational formulations, the authors present a wide variety of finite elements of different shapes useful for the numerical resolution of wave equations. Then, they focus on the construction of efficient continuous and discontinuous Galerkin methods and study their accuracy by plane wave techniques and a priori error estimates. A chapter is devoted to the Maxwell’s system and the important problem of its spurious-free approximations. Treatment of unbounded domains by Absorbing Boundary Conditions (ABC) and Perfectly Matched Layers (PML) is described and analyzed in a separate chapter. The two last chapters deal with time approximation including local time-stepping and with the study of some complex models, i.e. acoustics in flow, gravity waves and vibrating thin plates. Throughout, emphasis is put on the accuracy and computational efficiency of the methods, with attention brought to their practical aspects.This monograph also covers in details the theoretical foundations and numerical analysis of these methods. As a result, this monograph will be of interest to practitioners, researchers, engineers and graduate students involved in the numerical simulationof waves.
Finite Element Analysis of Wave-structure Interactions in the Time Domain
| Author | : Jaw-fang Lee |
| Publisher | : |
| Total Pages | : 478 |
| Release | : 1986 |
| Genre | : Wave resistance (Hydrodynamics) |
| ISBN | : |
The time-domain simulation of wave-structure interactions using the finite element method is presented in this study. Combined initial and boundary value problems for diffraction and radiation of waves by large structures are posed. Linearized free surface boundary conditions are used, but motions of the structural boundaries compared to the wave length are allowed to be large: adaptive meshes are used in the fluid adjoining the structures to accommodate structural motions without excessive distortions of the fluid elements. An extrapolated version of Orlanski's condition is developed for use for an artificial boundary to truncate the discretized region. Galerkin's method is used to formulate integral expressions for isoparametric, quadratic finite elements in the fluid domain and along its boundaries. Multiple fixed or floating rigid bodies are included which may be moored or interconnected by linear springs. Dynamic analysis procedures for problems of fluid-structure interactions are presented. A partitioned, staggered integration scheme is developed for the fluid-structure system. The implicit Newmark's method is used for the structural equations, and a nodal partitioned explicit-implicit integration scheme is derived for the fluid. Test examples are included to demonstrate the validity of the finite element fluid model, the extrapolated time dependent Orlanski condition for the artificial boundary, and the dynamic solution procedures developed to describe the interactions between fluids and structures for initial value problems or problems with nonlinear structural motions.
Frontiers in Planar Lightwave Circuit Technology
| Author | : Siegfried Janz |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 308 |
| Release | : 2006-01-12 |
| Genre | : Technology & Engineering |
| ISBN | : 9781402041648 |
The contributions to this book constitute an excellent record of many key issues and scientific problems in planar lightwave circuit research. There are detailed overviews of experimental and theoretical work in high index contrast waveguide systems, micro-optical resonators, nonlinear optics, and advanced optical simulation methods, as well as articles describing emerging applications of integrated optics for medical and biological applications.
