Polarized Light Revised And Expanded
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Polarized Light, Revised and Expanded
Polarized Light, Second Edition explores polarized light, its production, and its use, facilitating self-study without prior knowledge of Maxwell's equations. This comprehensive second edition includes more than 2500 thoroughly updated figures and equations for easier understanding and application across various industries. It features new chapters on polarization by refraction and reflection, polarization elements, anisotropic materials, Stokes polarimetry, Mueller matrix polarimetry, the mathematics of the Mueller matrix. This edition also offers updated and expanded material on the derivation of the Fresnel equations with plots of the magnitude and phase of the reflection coefficients.
Polarized Light
Polarized light is a pervasive influence in our world—and scientists and engineers in a variety of fields require the tools to understand, measure, and apply it to their advantage. Offering an in-depth examination of the subject and a description of its applications, Polarized Light, Third Edition serves as a comprehensive self-study tool complete with an extensive mathematical analysis of the Mueller matrix and coverage of Maxwell’s equations. Links Historical Developments to Current Applications and Future Innovations This book starts with a general description of light and continues with a complete exploration of polarized light, including how it is produced and its practical applications. The author incorporates basic topics, such as polarization by refraction and reflection, polarization elements, anisotropic materials, polarization formalisms (Mueller–Stokes and Jones) and associated mathematics, and polarimetry, or the science of polarization measurement. New to the Third Edition: A new introductory chapter Chapters on: polarized light in nature, and form birefringence A review of the history of polarized light, and a chapter on the interference laws of Fresnel and Arago—both completely re-written A new appendix on conventions used in polarized light New graphics, and black-and-white photos and color plates Divided into four parts, this book covers the fundamental concepts and theoretical framework of polarized light. Next, it thoroughly explores the science of polarimetry, followed by discussion of polarized light applications. The author concludes by discussing how our polarized light framework is applied to physics concepts, such as accelerating charges and quantum systems. Building on the solid foundation of the first two editions, this book reorganizes and updates existing material on fundamentals, theory, polarimetry, and applications. It adds new chapters, graphics, and color photos, as well as a new appendix on conventions used in polarized light. As a result, the author has re-established this book’s lofty status in the pantheon of literature on this important field.
Polarized Light, Revised and Expanded
This self-study guide explores polarization using the Stokes vector, the Stokes parameters and the Mueller matrices - lending a modern perspective to the topic. It includes material on the experiment for the classical Zeeman effect. Maxwell's equations, this book: utilizes the classical wave theory of optics in place of Maxwell's equations wherever possible; shows polarized light in terms of observables (Stokes polarization parameters), linking theoretical descriptions of the optical field to quantities that are actually measured in the laboratory; examines in detail Maxwell's theory and its connection to polarized light, and to accelerating charges in classical electrodynamics and quantum mechanics; documents various measurement methods using the Stokes vector and Mueller matrices; and explores the characterization of the complex refractive index and film thickness of optical materials.