On-Going Courses
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Franko Kueppers , Currently offered, on-going course with ERC content , Lasers and Photonics , Spring 2009 , 40 , |
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Franko Kueppers , Currently offered, on-going course with ERC content , Lasers and Photonics , Spring 2010 , 40 , |
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Franko Kueppers , Currently offered, on-going course with ERC content , Optical Communications , Spring 2010 , 40 , |
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Franko Kueppers , Currently offered, on-going course with ERC content , Photonic Telecom Systems and Devices , Spring 2009 , 10 , |
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Gil Zussman , Currently offered, on-going course with ERC content , Computer Networks , Fall 2009 , 85 , |
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George Papen , Currently offered, on-going course with ERC content , Optical Communication Systems , Spring quarter 20009 , 6 , Systems level course on optical communications |
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George Papen , Currently offered, on-going course with ERC content , Satistical Optics , Fall 2008 , 5 , Statistical optics with an emphasis on techniques that can be applied to communication systems. |
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Stojan Radic , Currently offered, on-going course with ERC content , Optical Modulation and Detection (ECE240C) , Spring Quarter 2009 , 15 , Propagation of waves and rays in anisotropic media. Electro-optical switching and modulation. Acousto-optical deflection and modulation. Detection theory. Heterodyne detection, incoherent and coherent detection. |
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Yeshaiahu Fainman , Currently offered, on-going course with ERC content , Optical Info Processing & Holography + Lab (ECE184, 185, 186L) , Winter Quarter 2009 , 15 , Class and Lab covering optical holography, photorefractive effect, spatial filtering, computer generated holography. |
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Yeshaiahu Fainman , Currently offered, on-going course with ERC content , Nanophotonics (ECE212CN) , Spring Quarter 2009 , 25 , Photonic properties of artifically engineerred inhomogeneous nanoscale composite materials incorporating dielectrics, semiconductors, and/or metals. Near-field localization effects and applications as well as device and component applications are covered. |
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Keren Bergman , Currently offered, on-going course with ERC content , ELEN4488 Optical Systems , Semester, Fall 2009 , 12 , This recently (2008) introduced optical systems course uniquely examine the field from an engineering perspective, providing students with the fundamental tools of optical design while exploring in detail the how optical technology enables specific systems and networks applications. The course focuses on applications that employ optical systems and networks and will include specific modules from CIAN research on the integration of photonic technologies in access aggregation and data center interconnection networks. |
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Vitaliy Lomakin , New course based on ERC Research , Analytical Methods in Electromagnetics , Quarter, Spring 09 , 10 , The course introduces advanced teoretical methods to represent, characterize, and compute electromagnetic fields in complex invironments. The course was given at UCSD for the first. This course incorporates results derived from the research in the framework of CIAN. The course has several unique components not taught in other universities. |
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Vitaliy Lomakin , Currently offered, on-going course with ERC content , Electromagnetic Optics , Quarter, Fall 09 , 10 , Senior Level. Introduces principles of Electromagnetic Optics, Otics in Crystals, Wavegiding optics, Fibers, and Resonators |
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Vitaliy Lomakin , Currently offered, on-going course with ERC content , Electromagnetism , Quarter, Winter 09 , 65 , Introduces foundations of electromagnetic theory. |
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Robert Norwood , Currently offered, on-going course with ERC content , Opti 471A Advanced Undergraduate Laboratory , Fall , 33 , Students perform a series of 12 experiments covering advanced topics in optics and photonics, including polarimetry, Faraday rotation, fiber optic coupling, and various forms of interferometry. |
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Robert Norwood , Currently offered, on-going course with ERC content , 510R Photonics , Spring , 20 + Distance Learning , Graduate level photonics course covering a large range of topics relevant to the ERC, ranging from optical materials, to optical components, through fundamentals of optical fiber transmission. |
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Galina Khitrova , New course based on ERC Research , Functional Nanostructures , Semester , , Modern growth and fabrication techniques make it possible to construct a great variety of useful devices. The emphasis in this course will be upon making and understanding devices for nanophotonics; it will include such topics as: 1D, 2D, and 3D photonic crystals, both passive and active; lasers and modulators for telecommunications; quantum optical devices; metamaterials, both passive and active. One of the objectives of the course will be to understand devices needed by and being worked on in the UofA-based NSF Engineering Research Center for Integrated Access Networks (CIAN) and how they relate to the overall goals of CIAN. |
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Joseph Ford , New course based on ERC Research , ECE181: Geometrical and Physical Optics , Winter '09 , 20 , This is the first course in the undergraduate optics curriculum, covering the basics of light propagation, imaging, diffraction, interference, and simple optical systems |
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Joseph Ford , Currently offered, on-going course with ERC content , ECE241C: Diffractive Optics , Fall '08 , 10 , A graduate course on physical optics of diffraction from planar and volume structures, including optically recorded holograms and computer generated and micro-fabricated structures |
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Ming Wu , Currently offered, on-going course with ERC content , Lightwave Devices , Fall 2009 , 22 , Develop a physical understanding of optoelectronic devices, including light-emitting diodes, semiconductor lasers, photodetectors, modulators, solar cells. Acquire basic skills for analyzing and designing semiconductor optoelectronic devices. |
2010 Strategic Advisory Board Meeting
