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This course explains the how semiconductor devices work. Before the devices themselves are discussed, a few concepts of solid state physics will be presented. Solid state physics is the study of how atoms arrange themselves into solids and what properties these solids have.
Properties that can be calculated using the principles of solid state physics include electrical conductivity, thermal conductivity, elasticity, yield strength, speed of sound, dielectric constant, magnetism, and piezoelectricity. A proper understanding of the electronic properties of materials is only possible when the electrons are described quantum mechanically. Therefore, a brief discussion of quantum mechanics will be necessary.
After a few principles of quantum mechanics are introduced, the electronic properties of metals, insulators, and semiconductors will be described. Electronic devices typically consist of different materials and the behavior of the electrons at the interfaces between the materials is very important. The properties of electronic materials and the interfaces between electronic materials can be used to explain the behavior of a variety of semiconductor devices such as light emitting diodes, solid state lasers, sensors, bipolar transistors, and field effect transistors.
Electrons in crystals.
Physics and Technology of Semiconductor Devices
Intrinsic Semiconductors. Extrinsic Semiconductors. Students from chemistry, physics and engineering all have something to contribute to the group regardless of background.
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For example, if you're an engineer, you'll be comfortable during the integration and processing portion of the course, but less comfortable with the materials chemistry. If you're a physicist, you'll enjoy the device physics, but struggle at other times. Because the success of the individual depends on the success of the group, much as it does in industry, students can learn from and mentor each other through the processes they're less familiar with. This diversity of backgrounds allows different students to take a leadership role at various points in the problem-solving process.
Schottky Diode - Fabrication and characterization of Metal -on-silicon Schottky diodes utilizing thermal evaporation technique onto doped silicon wafers. Techniques include thin film deposition and semiconductor device parameter characterization using modern instruments. Techniques include formation of gate oxides, photolithography, and capacitance-voltage characterization of a MOS device.
Semiconductor Devices: Physics and Technology | University College London
Emphasis is placed on the understanding of dopant diffusion, the role of p-n junction in photovoltaics, the characterization of photovoltaics and the factors that affect their efficiency. Multi-step processing necessary to produce the devices and electrically characterize them.
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The philosophy of the Semiconductor and PV internship program embraces a self-starting, hands-on, team oriented approach to learn problem solving in the microelectronic and photovoltaic industry. Students gain real-world experience as they research, design, process, optimize and test a series of devices. University of Oregon, At Oregon since Shannon Boettcher , B.
Semiconductor Devices: Physics and Technology
Lewis and Harry A. Honors and Awards: Barry M. Dupont Young Professor James Hutchison , B.
Lokey-Harrington Chair in Chemistry, Fuding Lin , B. Physics , Xiamen University, Physics , University of Oregon, Mark Lonergan. Postdoctoral, University of Oregon, Shannon Boettcher.