Late homework assignments will be reduced by a 10 point penalty per week late. Homework not submitted will receive a grade of 0, resulting in an incomplete for the course. The remaining 5 points are reserved for products that go beyond the established objectives of the assignment and clearly identify additional effort, additional research, or self-assessment. It is important to note that homework assignments that fully meet all objectives will receive a grade of 95. Homework assignments will be evaluated and graded on a scale of 0 to 100. Homework - Each student is required to complete all homework assignments to earn a course grade. This course will consist of three basic student requirements: ![]() Computer and Technical RequirementsĪ student should have access to a computer and MatLab Participation Expectations All external sources of information used to support must be appropriately referenced. Late homework will not be accepted without the prior permission of the instructor.It is assumed that graduate students are adept at writing English and no points will normally be subtracted for English errors in cases of exceptionally poor English points will be deducted. Student Assessment Criteria Homework (10 assignments)Īll homework is due within one week of its assignment. How to model propagation of optical pulses in an optical fiber, propagate laser beams in materials and the atmosphere, define optical modes of laser cavities and optical waveguides. The student will make use of Fourier techniques, matrix manipulation and ordinary differential equation solvers will be explored to model concepts related to physical optical systems. By the end of the course, students will have seen:.A student taking this course will become confortable with several of the MatLab toolboxes and how they can be used in physical optics, optical propagation and image formation. The goal of this course is to familiarize students with the use of MatLab and concepts required for the analysis of linear optical systems. While a background in optics is helpful, it is not required. Course Note(s): No prior experience with MATLAB is required. Students are expected to complete a semester project that will facilitate investigation of a topic of interest not specifically covered in the course. Topics include an introduction to MATLAB, review of electromagnetism, ray tracing, 1D Fourier theory and propagation in optical fibers, laser beam propagation, paraxial wave propagation in turbulent media, diffraction and holography, polarization and interferometry, optical waveguides and laser theory and related technologies. The goal is to bridge the gap between theoretical concepts and real-world applications. ![]() Each module explores a new topic in optics, while simultaneously providing experience in MATLAB. This course provides hands-on experience with MATLAB by performing weekly computer exercises revolving around optics. Cell Phone: 30 Course Information Course Description
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