Semiconductor Photonics Graduate Certificate | Certificate course on Coursera
Learn the fundamental building blocks for solid-state photonic devices. It starts from the quantum theory of solids and fundamentals of semiconductor devices and covers advanced photonic devices such as solid-state lighting, semiconductor lasers, photodetectors, and energy conversion devices.
The only top 5 ranked online electrical engineering graduate program with no application
Optimal’s Guide to Online School, 2020 Best Online Masters in Electrical Engineering Degrees in the U.S.
Earn degree credit upon completion
Optimal’s Guide to Online School, 2020 Best Online Masters in Electrical Engineering Degrees in the U.S.
Earn degree credit upon completion
Upon completion of the Semiconductor Photonics Graduate Certificate, you can earn 9 credits toward the 100% online Master of Science in Electrical Engineering degree.
Boost your career and build your portfolio
Upon completion of the Semiconductor Photonics Graduate Certificate, you can earn 9 credits toward the 100% online Master of Science in Electrical Engineering degree.
Boost your career and build your portfolio
Receive a university-issued Graduate Certificate from a top university that you can add to your resume and LinkedIn profile.
Receive a university-issued Graduate Certificate from a top university that you can add to your resume and LinkedIn profile.
Description
In this program, you will:
- Learn how different wavelengths propagate through systems, then move on to aberrations that appear with high-angle, non-paraxial systems and how to correct those problems.
- Use mathematical tools like Zemax and OpticStudio to analyze high-performance systems.
- Understand the energy band structures and their significance in the electric properties of solids.
- Design a semiconductor light-emitting diode and analyze its efficiency and semiconductor laser.
- Understand and analyze the metal-oxide-semiconductor (MOS) device, MOS field-effect transistors (MOSFET), and more.
- Select a display technology for a given application (LIDAR, imaging, microscopy, etc.).
- Choose suitable semiconductor materials for light-emitting devices
- Design a system around the limitations of a given display technology (i.e. addressing).
- Use nanophotonic effects (low dimensional structures) to engineer lasers.
Analyze the carrier statistics, carrier dynamics, and the resulting conduction properties of semiconductors.
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