EMAT Academics

Select Recent Publications

Spotlight: Si-CMOS compatible materials and devices for mid-IR microphotonics

Analysis of Threshold Current Behavior for Bulk and Quantum-Well Germanium Laser Structures

Single-Crystal Germanium Growth on Amorphous Silicon

Photonic crystal structures for light trapping in thin-film Si solar cells: Modeling, process and optimizations

Engineering broadband and anisotropic photoluminescence emission from rare earth doped tellurite thin film photonic crystals
Professor Kimerling is the primary or contributing instructor for the following courses:

3.003/3.004 Principles of Engineering Practice
Introduces students to the interdisplinary nature of 21st-century engineering projects with three threads of learning: a technical toolkit, a social science toolkit, and a methodology for problem-based learning. Students encounter the social, political, economic, and technological challenges of engineering practice by participating in actual engineering projects involving public transportaiton and information infrastructure with faculty and industry. Student teams create prototypes and mixed media reports with exercises in project planning, analysis, design, optimzation, demonstration, reporting and team building.

3.29-3.291 Special Problems in Emerging and Fundamental Studies
Advanced work in the field for qualified students. Lectures, conferences, assigned readings, or supervised laboratory work.

3.46 Photonic Materials and Devices
Optical materials design for semiconductors, dielectrics and polymers. Ray optics, electromagnetic optics and guided wave optics. Physics of light-matter interactions. Device design pronciples: LEDs, lasers, photodetectors, modulators, fiber and waveguide interconnects, optical filters, and photonic crystals. Device processing: crystal growth, substrate engineering, thin film deposition, etching and process integration for dielectric, silicon and compound semiconductor materials. Microphotonic integrated circuits. Telecom/datacom systems. Assignments include three design projects that emphasize materials, devices and systems applications.

Feel free to browse other MIT courses available online at http://ocw.mit.edu/index.html

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