Optical fibers are the backbone of modern photonics and telecommunications, and this graduate course treats them as engineered waveguides where material choice, index profile, and geometry together determine how light propagates, disperses, and leaks. You'll move between lectures on guidance physics across silica, fluoride, chalcogenide, and photonic-crystal/hollow-core architectures and hands-on labs that take you from preform preparation through fiber drawing to optical and mechanical characterization, capped by a project. It sits at the interface of materials science and photonics, giving you the working vocabulary to read fiber-sensor, infrared-fiber, and telecom-component literature critically rather than as a black box.
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Course Learning Outcomes: Course Learning Outcome Assessment •Develop a working knowledge of fundamental light guidance in fibers •Gain a knowledge on different types of fibers and fiber materials •Experience the development and characterization of optical fibers in laboratories •Comprehend emerging trends and applications of optical fibers •Gain an ability to give oral presentations and write review papers on scientific sub-fields •Develop an ability to critically examine and understand recent