Still cameras, shutters, apertures, photographic film. Prism devices Various optical material types, crown and flint glass, fused silica, low thermal expansion glasses. Polarization, polarizers, and wave-plates. Plane waves, spherical waves and image formation. Its intention is to provide a foundation of basic principles, design methodology, and practical considerations needed to design or use optical instruments in engineering practice. It also provides exposure to practical aspects of optical materials and devices. Spring: 3.0 hours of lecture and 1.0 hours of discussion per weekįall: 3.0 hours of lecture and 1.0 hours of discussion per weekįinal exam status: Written final exam conducted during the scheduled final exam periodĬourse objectives: This course introduces fundamental physical principles of both classical and modern optics as well as principles of optical design used in the engineering of optical systems. Prerequisites: MATH 53 EECS 16A and EECS 16B, or MATH 54.Ĭredit Restrictions: Students will receive no credit for Electrical Engineering 218A after taking Electrical Engineering 118 or 119. Stops and apertures, prisms, and mirrors. Geometrical optics and aberration theory. Catalog Description: Fundamental principles of optical systems.
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