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This excellent text combines a solid treatment of optical signal processing theory with detailed descriptions of selected processing applications. With a focus on processing two-dimensional analog signals, it treats the important area of acousto-optic signal processing.
Fourier and Diffractive Optics is a required course in electrical engineering and physics programs. Based upon Professor Ersoy's class notes, Diffraction, Fourier Optics and Imaging is an innovative and comprehensive work, presenting both theory and applications using MATLAB in examples and exercises.
This is the first comprehensive description of an important topic, both in terms of technology and pure research, in a number of different disciplines. It is beginning to be offered as a graduate-level course and there are many researchers and engineers who use ultrafast laser systems in their daily work.
The discovery of the Fractional Fourier Transform and its role in optics provides an elegant mathematical framework within which to discuss diffraction and other fundamental aspects of optical systems. Easily-accessible, the reference work will serve as the standard reference on Fourier Transforms for many years to come.
This classic opens with a history of the development of the infrared portion of the spectrum, probes the system engineering process, and then examines the characteristics of the successful system engineer. The next eleven chapters delve deeply into the elements of infrared technology.
The Only Source You Need for Understanding the Design and Applications of Photonic Crystal-Based Devices This book presents in detail the fundamental theoretical background necessary to understand the unique optical phenomena arising from the crystalline nature of photonic-crystal structures and their application across a range of disciplines.
This fully updated edition includes the latest developments in the growing field of optoelectronics. New topics covered here include a brief history of the invention of semiconductor lasers, the Lorentz dipole model and metal plasmas, matrix optics, surface plasma waveguides, and optical ring resonators.
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