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Provides a concise overview of physical optics for easy reference, with a focus on information applicable to the field of optical engineering. Within this Field Guide, you will find formulae and descriptions of electromagnetic wave phenomena that are fundamental to the wave theory of light.
Traditional macro-optics can be designed without complex design software tools. However, digital optics, especially wafer-scale micro-optics, require specific software and tools. There is often no analytical solution, and thus complex iterative optimization algorithms may be required. This book covers refractive and diffractive micro-optics, the iterative optimization process, and modeling and fabrication techniques crucial to this field. The ability to create hybrid systems capable of producing analog and digital functionality is also addressed.
Author Malcolm Jeremiah has included tools central to describing polarization, interference, and diffraction. Emphasis is placed on scalar diffraction and imaging theory, which are essential in solving most practical optical engineering problems.This Field Guide provides a concise overview of physical optics for easy reference, with a focus on information applicable to the field of optical engineering. Within this Field Guide, you will find formulae and descriptions of electromagnetic wave phenomena that are fundamental to the wave theory of light.
Author Edwin Collins has included tools central to describing polarization, interference, and diffraction. Emphasis is placed on scalar diffraction and imaging theory, which are essential in solving most practical optical engineering problems.This Field Guide provides a concise overview of physical optics for easy reference, with a focus on information applicable to the field of optical engineering. Within this Field Guide, you will find formulae and descriptions of electromagnetic wave phenomena that are fundamental to the wave theory of light.
Within this Field Guide, you will find formulae and descriptions of electromagnetic wave phenomena that are fundamental to the wave theory of light. Author James Cooper has included tools central to describing polarization, interference, and diffraction. Emphasis is placed on scalar diffraction and imaging theory, which are essential in solving most practical optical engineering problems.
"This Field Guide covers the essential topics of solid state physics, including crystal structures and dynamics, band structures, quantum structures, semiconductors, superconductors, and magnetism. Essential equations and simple diagrams convey the principles that form the core of this field."--
Includes Proceedings Vols. 5631, 5636, 5637, 5642, 5643
Provides optical designers, shop managers, opticians, and purchasers a concise reference explaining what the designer needs to know before making final choices and how to specify the components before they are ordered. It presents how conventional fabrication proceeds for representative components, alternative and emerging methods to optical fabrication, product evaluation, and the calculations used.
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.
"Field Guide to Infrared Optics, Materials, and Radiometry covers all aspects of IR optics, including monochromatic and chromatic optical aberrations as well as important concepts such as depth of focus, depth of field, hyperfocal distance, warm shields, aspheric surfaces, and kinoforms. It also provides a comprehensive introduction to the optical, mechanical, and thermal properties of infrared materials as well as the essentials of radiometry and sources necessary for the quantitative understanding of infrared signatures and flux transfer, spectral atmospheric transmittance, and path radiance"--