Public profile
Research areas
Quantum information processing, Quantum networks, Optically interfaced solid-state spins, Quantum optics, Silicon photonics
Electrical and Computer Engineering
Assistant Professor, Electrical and Computer Engineering
Member, Ken Kennedy Institute
Average rating
4.0
8 temporary mock ratings
Difficulty
2.4
course-linked average
Courses
4
in seeded sections
Quantum information processing, Quantum networks, Optically interfaced solid-state spins, Quantum optics, Silicon photonics
APPL 007
Research conducted by a visiting student scholars. Repeatable for Credit.
APPL 800
Thesis research under the supervision of faculty. Repeatable for Credit.
ELEC 007
Research conducted by visiting student scholars. Repeatable for Credit.
ELEC 261
The objective of this course is an understanding of the physics and operation of semiconductor de-vices. The first part of 261 is focused on understanding of semiconductor materials in terms of crystal structure, energy bands, density of states, dopants, and electronic transport, and finally the basics of pn junctions and pn junction diodes. The second part of 261 is focused on understanding the operation and design of semiconductor devices including metal-semiconductor contacts, metal-oxide semi-conductor capacitors and transistors (MOSFETs), and bipolar junction transistors (BJTs). In addition, 261 will also introduce the basic concepts of advanced devices such as junction field effect transistors, optical devices, microwave and power devices. ELEC 261 will lay the foundation for follow-on PEN and circuits courses such as ELEC 305.