Книга "Моделирование и оптимизация оптических характеристик ЖК-дисплеев" посвящена исследованию методов моделирования ЖК-дисплеев, включая метод матрицы Джонса и его модификации, применяемые для анализа поляризационных оптических свойств ЖК-материалов. Авторы книги, обладая значительным опытом работы с ЖК-материалами, предоставляют аналитические решения и приближения для важных случаев матричного описания различных конфигураций ЖК-слоев и их влияния на оптические характеристики дисплеев. Книга также описывает метод Эйгенвэйв-матрицы Джонса, который обеспечивает улучшенную точность по сравнению с методом матрицы Джонса и расширенным методом матрицы Джонса при более высокой скорости вычислений. Она содержит анализ точности различных подходов и примеры их применения в разных ситуациях. В качестве дополнения к книге предоставляется библиотека программ LMOPTICS (FORTRAN 90), предназначенная для расчета оптических характеристик стратифицированных сред, что облегчает реализацию описанных в книге методов.
This book focuses on polarized light propagation and interaction in multilayer LCD structures, covering a wide range methodologies used in modeling LCDs, from simple Jones matrices to more advanced, high-accuracy algorithms .
Focusing on the polarization matrix optics and many aspects, this book covers a wide variety of techniques that have been used for LCD modeling. It starts with the simple Jones Matrix Method and finally rises to elaborate, accurate algorithms suitable for on-axis and off-axis optic. Every researcher or scientist strives for developing products with greater performance, quicker response times and wider viewing angles. Moreover, you can also improve the color quality of liquid crystal displays. With all these improvements come the challenges of making LCD devices work as expected. The author has significant experience when it comes to applying liquid crystals in practical applications, especially regarding their optical performance qualities. The key features include: exploring analytical solutions for important cases related to matrix treatment, layer configurations of liquid crystals and applications of the results received to make the computerized method work better, analyzing the accuracy of the approaches mentioned in the book, introducing Eigenwave-Jones Matrix Method, a method that improves the accuracy compared to traditional Jones Matrix and Advanced Jones Matrix techniques and, at the same time, makes it faster and more versatile, providing a web link to LMOPTICS software library, written in FORTRAN 90, which comprises routines to calculate the optical properties and characteristics of layered media, as well as a collection of samples that exemplify how to incorporate these techniques into various situations.
Электронная Книга «Modeling and Optimization of LCD Optical Performance» написана автором Vladimir G. Chigrinov в году.
Минимальный возраст читателя: 0
Язык: Английский
ISBN: 9781118706732
Описание книги от Vladimir G. Chigrinov
Focusing on polarization matrix optics in many forms, this book includes coverage of a wide range of methods which have been applied to LCD modeling, ranging from the simple Jones matrix method to elaborate and high accuracy algorithms suitable for off-axis optics. Researchers and scientists are constantly striving for improved performance, faster response times, wide viewing angles, improved colour in liquid crystal display development, and with this comes the need to model LCD devices effectively. The authors have significant experience in dealing with the problems related to the practical application of liquid crystals, in particular their optical performance. Key features: Explores analytical solutions and approximations to important cases in the matrix treatment of different LC layer configurations, and the application of these results to improve the computational method Provides the analysis of accuracies of the different approaches discussed in the book Explains the development of the Eigenwave Jones matrix method which offers a path to improved accuracy compared to Jones matrix and extended Jones matrix formalisms, while achieving significant improvement in computational speed and versatility compared to full 4x4 matrix methods Includes a companion website hosting the authors' program library LMOPTICS (FORTRAN 90), a collection of routines for calculating the optical characteristics of stratified media, the use of which allows for the easy implementation of the methods described in this book. The website also contains a set of sample programs (source codes) using LMOPTICS, which exemplify the application of these methods in different situations
