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Geometrical Optics in the Paraxial Area; Theory of Imaging; Sources of Light and Illumination Systems; Detectors of Light; Optical Systems for Spectral Measurements; Non-contact Measurements of Temperature; Optical Scanners and Acousto-Optics; Optical Systems for Distance and Size Measurements; Optical Systems for Flow Parameter Measurements; Color and Its Measurement.
Aimed at students taking practical laboratory courses in experimental optics, this book helps readers to understand the components within optical instruments. Topics covered range from the operation of lenses and mirrors to the laws which govern the design, layout and working of optical instruments.
A concise, yet deep introduction to geometrical optics, developing the practical skills and research techniques routinely used in modern laboratories. Suitable for both students and self-learners, this accessible text teaches readers how to build their own optical laboratory, and design and perform optical experiments.
Dieses Buch ist genau richtig für Einsteiger in das Fachgebiet. Schwierige Effekte werden direkt und leicht verständlich präsentiert. Diese aktualisierte, erweiterte Auflage bietet neue Kapitel zu neuen Themen wie Plasmonik, Frequenzkämme auf Femto-Ebene und Quantenkaskadenlaser
Practical Optics bridges the gap between what students learn in optical engineering curricula and the problems they realistically will face as optical engineering practitioners, in a variety of high-tech industries. A broad range of topics from modern optical engineering are addressed, ranging from geometrical optics and basic layout of electro-optical instruments, to the theory of imaging, radiation sources and radiation sensors, spectroscopy, and color vision and description of optical methods for measurements of numerous physical parameters (temperature, flow velocity, distances, roughness of surfaces, etc.). · Condensed background information related to most topics of modern Electro-Optics and Optical Engineering.· Coverage of each topic includes examples and problems, most of which are original and derived from realistic, high-tech projects.· Detailed solutions are provided for every problem, both theoretical and numerical; many readers will probably start with the problems/solutions and then read the background if necessary. · Coverage includes some topics rarely covered in Optics textbooks, such as non-contact measurements of temperature, velocity, or color.
Aimed at students taking laboratory courses in experimental optics, this book introduces readers to optical instruments and their uses. The book explains the basic operation of lenses, mirrors, telescopes in the laboratory and under field conditions, how to use optical instruments to their maximum potential and how to keep them in working order. It gives an account of the laws of geometrical optics which govern the design, layout and working of optical instruments. The book describes the interactions of polarised light with matter and the instruments and devices derived from this, and discusses the choice of spectrometers and detectors for various spectral regions, with particular attention to CCD cameras. The emphasis throughout is on description, with mathematical precision confined to the appendices, which explain the ray transfer matrix and outline the Seidel theory of optical aberrations. The appendices also introduce Fourier methods in optics and Fourier transform infra-red spectrometry.
A complete optical systems design course for general optical engineers! Practical optical system layout. The ``first cut'' design of an optical system--anything from a telescope to a complicated VR helmet--is usually not done by a specialist but by a more general optical engineer. This book, drawn from the author's extensive seminar experience, details such basic design techniques in a clear, concise, ``low-math'' way that is sure to be readily accessible to anyone with a working knowledge of optics. It discusses the characteristics of a wide range of optical components, how to determine the type of components to be used, and how to arrange these components so that the system measures up to its performance objectives. Practical, step-by-step coverage includes succinct equations, simple diagrams, and clear explanations. For less experienced designers, the chapter on utilizing stock lenses (to test a concept or to prove out a possible finished device) should be especially useful.