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Optical systems design4/6/2024 This will allow students to analyze systems that are too complicated for the simple analysis thus far introduced in this set of courses. The mathematical tools required for analysis of high-performance systems are complicated enough that this course will rely more heavily on OpticStudio by Zemax. The course wraps up with a discussion of optical components beyond lenses and an excellent example of a high-performance optical system – the human eye. We begin with a description of how different wavelengths propagate through systems, then move on to aberrations that appear with high angle, non-paraxial systems and how to correct for those problems. It is concerned with creating a light signal with certain characteristics, how this signal is. This course extends what you have learned about first-order, paraxial system design and optical resolution and efficiency with the introduction to real lenses and their imperfections. Gets you quickly up to speed with the theoretical and practical aspects of free space optical systems engineering design and analysis One of todays fastest growing system design and analysis disciplines is free space optical systems engineering for communications and remote sensing applications. Optical instruments are how we see the world, from corrective eyewear to medical endoscopes to cell phone cameras to orbiting telescopes. This course can also be taken for academic credit as ECEA 5602, part of CU Boulder’s Master of Science in Electrical Engineering degree.
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