Handbook of Optoelectronics (Two-Volume Set)John P. Dakin, Robert G. W. Brown A field as diverse as optoelectronics needs a reference that is equally versatile. From basic physics and light sources to devices and state-of-the-art applications, the Handbook of Optoelectronics provides comprehensive, self-contained coverage of fundamental concepts and practical applications across the entire spectrum of disciplines encompassed by optoelectronics. The handbook unifies a broad array of current research areas with a forward-looking focus on systems and applications. Beginning with an introduction to the relevant principles of physics, materials science, engineering, and optics, the book explores the details of optoelectronic devices and techniques including semiconductor lasers, optical detectors and receivers, optical fiber devices, modulators, amplifiers, integrated optics, LEDs, and engineered optical materials. Applications and systems then become the focus, with sections devoted to industrial, medical, and commercial applications, communications, imaging and displays, sensing and data processing, spectroscopic analysis, the art of practical optoelectronics, and future prospects. This extensive resource comprises the efforts of more than 70 world-renowned experts from leading industrial and academic institutions around the world and includes many references to contemporary works. Whether used as a field reference, as a research tool, or as a broad and self-contained introduction to the field, the Handbook of Optoelectronics places everything you need in a unified, conveniently organized format. |
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Handbook of Optoelectronics (Two-Volume Set) John P. Dakin,Robert G. W. Brown No preview available - 2006 |
Common terms and phrases
absorption amplitude applications atoms bandgap bandwidth beam birefringence camera carrier channels circuit cladding coefficient colour components conduction band constant core coupler density dependence detector devices dielectric diodes dispersion display EDFAs effect efficiency electric field electro-optic electrons emission emitted energy equation Erbium-Doped Fiber Amplifiers exciton Fiber filter frequency function gain holes IEEE image sensor increases input integration lamps laser layer LEDs Lett light liquid crystal loss luminous material mode modulation molecules multiplexing noise nonlinear nonlinear optical operation optical amplifiers optical fibre optoelectronic oscillator output packet phase phosphor photodetector photodiode photon Phys pixel polarization polymer preamplifier propagation pulse pump quantum radiation Raman range reflection refractive index region saturable absorber semiconductor sensitivity shown in figure signal silica spectral structure substrate switching techniques Technol temperature thermal transmission tube typical valence band velocity voltage wave waveguide wavelength