Field Guide To Geometrical Optics
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| Author | : John E. Greivenkamp |
| Publisher | : Society of Photo Optical |
| Total Pages | : 117 |
| Release | : 2004 |
| Genre | : Technology & Engineering |
| ISBN | : 9780819452948 |
This Field Guide derives from the treatment of geometrical optics that has evolved from both the undergraduate and graduate programs at the Optical Sciences Center at the University of Arizona. The development is both rigorous and complete, and it features a consistent notation and sign convention. This volume covers Gaussian imagery, paraxial optics, first-order optical system design, system examples, illumination, chromatic effects, and an introduction to aberrations. The appendices provide supplemental material on radiometry and photometry, the human eye, and several other topics.
| Author | : Julie L. Bentley |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2012 |
| Genre | : Lenses |
| ISBN | : 9780819491640 |
The process of designing lenses is both an art and a science. While advances in the field over the past two centuries have done much to transform it from the former category to the latter, much of the lens design process remains encapsulated in the experience and knowledge of industry veterans. This SPIE Field Guide provides a working reference for practicing physicists, engineers, and scientists for deciphering the nuances of basic lens design.
| Author | : Yuriy A. Garbovskiy |
| Publisher | : Cambridge University Press |
| Total Pages | : 241 |
| Release | : 2017-12-28 |
| Genre | : Science |
| ISBN | : 110717094X |
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.
| Author | : Virendra N. Mahajan |
| Publisher | : Society of Photo Optical |
| Total Pages | : 472 |
| Release | : 2014-06-03 |
| Genre | : Technology & Engineering |
| ISBN | : 9780819499981 |
Optical imaging starts with geometrical optics, and ray tracing lies at its forefront. This book starts with Fermat’s principle and derives the three laws of geometrical optics from it. After discussing imaging by refracting and reflecting systems, paraxial ray tracing is used to determine the size of imaging elements and obscuration in mirror systems. Stops, pupils, radiometry, and optical instruments are also discussed. The chromatic and monochromatic aberrations are addressed in detail, followed by spot sizes and spot diagrams of aberrated images of point objects. Each chapter ends with a summary and a set of problems. The book ends with an epilogue that summarizes the imaging process and outlines the next steps within and beyond geometrical optics.
| Author | : Yakov G. Soskind |
| Publisher | : SPIE-International Society for Optical Engineering |
| Total Pages | : 0 |
| Release | : 2011 |
| Genre | : Diffraction |
| ISBN | : 9780819486905 |
Recent advancements in microfabrication technologies and the development of powerful simulation tools have led to a significant expansion of diffractive optics and diffractive optical components. Instrument developers can choose from a broad range of diffractive optics elements to complement refractive and reflective components in achieving a desired control of the optical field. This Field Guide provides the operational principles and established terminology of diffractive optics as well as a comprehensive overview of the main types of diffractive optics components. An emphasis is placed on the qualitative explanation of the diffraction phenomenon by the use of field distributions and graphs, providing the basis for understanding the fundamental relations and important trends.
| Author | : Tomasz S. Tkaczyk |
| Publisher | : SPIE-International Society for Optical Engineering |
| Total Pages | : 162 |
| Release | : 2010 |
| Genre | : Science |
| ISBN | : |
This guide provides extensive coverage of microscopic imaging principles. After reviewing the main principles of image formation, diffraction, interference, and polarization used in microscopy, this guide describes the most widely applied microscope configurations and applications. It also covers major system components, including light sources, illumination layouts, microscope optics, and image detection electronics. This guide also provides a comprehensive overview of microscopy techniques, including bright field and dark field imaging, contrast enhancement methods (such as phase and amplitude contrast), DIC, polarization, and fluorescence microscopy. In addition, it describes scanning techniques (such as confocal and multiphoton imaging points); new trends in super-resolution methods (such as 4Pi microscopy, STED, STORM, and structured illumination); and array microscopy, CARS, and SPIM.
| Author | : Jim Schwiegerling |
| Publisher | : SPIE-International Society for Optical Engineering |
| Total Pages | : 109 |
| Release | : 2004 |
| Genre | : Technology & Engineering |
| ISBN | : 9780819456281 |
Includes Proceedings Vols. 5631, 5636, 5637, 5642, 5643
| Author | : Julius E. Yellowhair |
| Publisher | : |
| Total Pages | : |
| Release | : 2020 |
| Genre | : Solar collectors |
| ISBN | : 9781510636972 |
"The Field Guide to Solar Optics attempts to consolidate and summarize optical topics in solar technologies and engineering that are dispersed throughout literature. The field guide also attempts to clarify topics and terms that could be confusing or at times misused. As with any technology area, optics related to solar technologies can be a wide field. The topics selected for this field guide are ones that are frequently encountered in solar engineering and research for energy harvesting, particularly for electricity generation. Therefore, the topics selected are slanted towards solar thermal or commonly called concentrating solar power. The first section of the field guide provides background on energy needs and usage and where solar technologies fit into the energy mix. The next section covers properties of the sun and develop understandings for solar energy collection. The third section introduces optical properties, concepts, and basic components. In the fourth section, the various optical systems used in solar engineering are described. In solar, optical systems used for solar energy collection is commonly referred to as collectors (e.g., collector field). This term is used frequently in this field guide. Another term commonly used for solar collectors is non-imaging optics. The next section introduces concepts for characterizing optical components/systems and analysis approaches. Lastly, measurement tools commonly used in solar engineering and research are described. The fundamentals of the topics are provided. Providing methods or approaches to designs was not the goal of the field guide. However, the fundamental understanding can be extended and used for design of components and systems"--
| Author | : Edward Collett |
| Publisher | : Society of Photo Optical |
| Total Pages | : 134 |
| Release | : 2005 |
| Genre | : Science |
| ISBN | : 9780819458681 |
The polarization of light is one of the most remarkable phenomena in nature and has led to numerous discoveries and applications. The nature and mathematical formulation of unpolarized light and partially polarized light were not readily forthcoming until the 1950s, when questions about polarized light and the mathematical tools to deal with it began to be addressed in earnest. As a result, there is a very good understanding of polarized light today. The primary objective of this guide is to provide an introduction to the developments in polarized light that have taken place over the past half-century, and present the most salient topics of the subject matter such as Mueller matrices, Stokes polarization parameters, and Jones matrices.
| Author | : Katie Schwertz |
| Publisher | : SPIE-International Society for Optical Engineering |
| Total Pages | : 0 |
| Release | : 2012 |
| Genre | : Optical instruments |
| ISBN | : 9780819491619 |
Optomechanics is a field of mechanics that addresses the specific design challenges associated with optical systems. Intended for practicing optical and mechanical engineers whose work involves both fields, this describes how to mount optical components, as well as how to analyse a given design. Common issues involved with mounting optical components are discussed, including stress, glass strength, thermal effects, vibration, and errors due to motion.
