Coursework at Stanford

Interesting Physics

EE-222 Applied Quantum Mechanics I (David Miller)

EE-223 Applied Quantum Mechanics II (David Miller)

PHY-330 Quantum Field Theory (Michael Peskin)

AP-387 Quantum Optics and Measurements (Yoshihisa Yamamoto)

EE-340 Advanced Topics in Optics and Quantum Optics (Jelena Vukovic)

AP-383 Atomic Processes (Steve Harris)

AP-388 Mesoscopic Physics and Nanostructures (Yoshihisa Yamamoto)

AP-272 Solid State Physics I (Hari Manoharan)

EE-228 Basic Physics for Semiconductor Devices (Shanhui Fan)

EE- 327 Physical Properties of Semiconductor Materials (James Harris)

EE-141 Engineering Electromagnetics (Inan Umran)

EE-268 Modern Optics (Bert Hesselink) 

Device Physics

EE-216 Principles and Models of Semiconductor Devices (James Harris)

EE-316 Advanced VLSI Devices (Simon Wong)

EE-343 Advanced Optoelectronic Devices (Glenn Solomon)

EE-328 Advanced Semiconductor Devices (James Harris)

ME-344 Computational Nanotechnology (KJ Cho)

EE - 326 Organic Semiconductors for Electronic and Photonic Devices (Mike McGehee) 

EE - 322 Molecular Electronics and Photonics (Peter Peumans)

Device Fabrication

EE-212 Introduction to Fabrication Process (Jim Plummer)

EE-410 Fabrication Lab (Krishna Saraswat)

Circuits/VLSI/Systems

EE-214 Introduction to Analog Circuits (Tom Lee)

EE-314 RF Integrated Circuits (Tom Lee)

EE-271 Introduction to VLSI Design (Mark Horowitz)

EE-313 Digital MOS Circuits (Boris Murmann)

EE-273 Systems Engineering (Heinz Blenmann)

EE-261 Fourier Transform and Applications

EE-103 Introduction to Digital Signal Processing