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A Digression: The Vast Field of Electrical Engineering

chemistry. Economics. Semiconductor processing. Materials science. Information theory. Solid-state physics. Semiconductor physics. Device physics. circuits. Transistor level. Higher level. Control theory. Core knowledge body of the device engineer.

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A Digression: The Vast Field of Electrical Engineering

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  1. chemistry Economics Semiconductor processing Materials science Information theory Solid-state physics Semiconductor physics Device physics circuits Transistor level Higher level Control theory Core knowledge body of the device engineer A Digression: The Vast Field of Electrical Engineering • But, each small field can consume one’s entire life • So, how can one be a good device engineer??? Chuang Tzu: My life is limited while knowledge is unlimited. Pursuing the unlimited with the limited, it is just hopeless! 莊子: 吾生也有涯 而知也無涯 以有涯逐無涯 殆矣

  2. chemistry Economics Semiconductor processing Materials science Information theory Solid-state physics Semiconductor physics Device physics circuits Transistor level Higher level Control theory Core knowledge body of the device engineer A Digression: The Vast Field of Electrical Engineering How can one be a good device engineer??? The big picture! And, life-long learning! This course is about the big picture. It willed be tailored to suit your research interest; we have a small class after all.

  3. Syllabus Course Objective: To provide students with an understanding of device physics and advanced semiconductor device concepts. • Topics • Review of Semiconductor physics • Crystal structure, band structures, band structure modification by alloys, heterostructurs, and strain • Carrier statistics • Scattering, defects, phonons, mobility, transport in heterostructures • Device concepts • MOSFETs, MESFETs, MODFETs, TFTs • Heterojunction bipolar transistors (HBT) • Semiconductor processing • Photodiodes, LEDs, semiconductor lasers • (optional) resonant tunneling devices, quantum interference devices, single electron transistors, quantum dot computing, ... • Introduction to nanoelectronics √ √ √ √ √ √ √ √

  4. Recommended book: Rainer Waser (Ed), Nanoelectronics and Information Technology: Advanced Electronic Materials and Novel Devices, Wiley-VCH, 2003.

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