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Design and optimization of cascaded DCG based holographic elements for spectrum-splitting PV systems
This course provides a working knowledge of current techniques in holography that provide new capabilities for medical imaging, optical data storage, and optical communications.
In this course the basic principles of analog and digital holographic recording processes are described. Coupled wave and ray analysis tools for evaluating hologram performance are developed. An overview of new photopolymer recording materials for analog recording and important characteristics of digital cameras for digital recording are presented. After developing tools for analyzing holographic techniques they are applied to medical imaging in biological tissue samples, spectral/spatial imaging, optical data storage, and filters for wavelength division multiplexing and code division multiple access communications.
This one day short course provides students with background in issues related to high bandwidth data transmission in modern fiber optic systems and networks. Topics include a discussion of basic fiber parameters, dispersion mechanisms, semiconductor sources and detectors, source and detector noise, evaluation of bit error rates, fiber amplifiers, power and rise time budgets, WDM and DWDM fiber networks, and fiber Bragg gratings.
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