Field theory of nonimaging optics /

"This book aims to overcome traditional ray paradigm and provide an analytical paradigm for Nonimaging Optics based on Field Theory. As a second objective the authors address the connections between this Field Theory of Nonimaging Optics with other radiative transfer theories. The book introduc...

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Bibliographic Details
Main Authors:	García-Botella, Angel (Author), Winston, Roland (Author), Jiang, Lun (Author)
Corporate Author:	Taylor & Francis
Format:	eBook
Language:	English
Published:	Boca Raton, FL : CRC Press, 2024.
Edition:	First edition.
Subjects:	Light > Transmission > Mathematical models. Field theory (Physics) Geometrical optics. Lumière > Propagation > Modèles mathématiques. Théorie des champs (Physique) Optique géométrique. SCIENCE / Mechanics / Dynamics / Thermodynamics TECHNOLOGY / Electricity TECHNOLOGY / Lasers Geometrical optics Electronic books.
Online Access:	Connect to the full text of this electronic book

Description
Summary:	"This book aims to overcome traditional ray paradigm and provide an analytical paradigm for Nonimaging Optics based on Field Theory. As a second objective the authors address the connections between this Field Theory of Nonimaging Optics with other radiative transfer theories. The book introduces the Field Theory of Nonimaging Optics as a new analytical paradigm, not statistical, to analyze problems in the frame of nonimaging geometrical optics, with a formulation based on field theory of irradiance vector D. This new paradigm provides new principles and tools in the optical system design methods, complementary to flowline method, overcoming the classical ray paradigm. This new Field paradigm can be considered as a generalization of ray paradigm and new accurate and faster computation algorithms will be developed. In parallel way, the advance in the knowledge of the principles of Field Theory of Nonimaging Optics, has produced clear advances in the connection between nonimaging optics and other apparently discontented theories of radiation transfer. The irradiance vector D can be considered as macroscopic average of Poynting vector, with clear connection with radiation pressure. Lorentz geometry techniques can also be applied to study irradiance vector D. There are clear thermodynamic connections between nonimaging concentrator and Stefan-Boltzmann law of radiation. From this thermodynamic connection, nonimaging optics and irradiance vector D can also be studied from phase space point of view. This book is intended for researchers, graduate students, academics, and professionals looking to analyze, design and optimize optical systems"--
Physical Description:	1 online resource (vi, 177 pages) : illustrations
Bibliography:	Includes bibliographical references (pages 169-173) and index.
ISBN:	9780367551605 0367551608 9781000873214 1000873218 9781000873191 1000873196