Plasma/Quantum Electronics and Optics Courses
Major Work
Plasma
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EE 396K-19 Plasma Processing of Semiconductors I
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EE 396K-20 Plasma Processing of Semiconductors II
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PHY 380L Plasma Physics I
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PHY 380M Plasma Physics II
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PHY 391S Seminar in Plasma Physics
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PHY 391U Seminar in Plasma Theory
Quantum Electronics
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EE 396K-1 Metal Oxide Semiconductor Devices
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EE 396K-2 Semiconductor Physics
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EE 396K-8 VLSI Fabrication Techniques
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EE 396K-13 Magnetic Materials
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EE 396K-21 Submicron Device Physics and Technology
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EE 396K-22 Semiconductor Microlithography
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EE 396K-23 Semiconductor Heterostructures
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EE 396K-25 Organic and Polymer Semiconductors
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EE 396K-26 Microelectronic Machining (MEMS)
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EE 396K-27 Charge Transport in Organic Semiconductors
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EE 396K Microwave Devices
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EE 396V Magnetic/Electronic Properties Transition Metals
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EE 396V Introduction Solid State Properties Materials
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EE 396V Semiconductor Nanostructures
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PHY 392T Solid State Physics: Electronic Property Materials
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ME 386Q Nanomaterials
Optics
Supporting Work
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EE 383L Electromagnetic Field Theory
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EE 383V Computational Electromagnetics
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EE 383V Radar Principles
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EE 392K Antenna Theory and Practice
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PHY 386K Physics of Sensors
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M 383C Methods of Applied Mathematics
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M 383G Numerical Treatment of Differential Equations
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CAM 381M Methods of Mathematical Physics
Upper Division Courses Which May Be Counted in Masters Degree
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PHY 373 Modern Physics II: Quantum Mechanics
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PHY 375S Introduction Solid State Physics
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