Ve434 X370021 光子学原理
Course Name:  Principles of Photonics. Course Credits:  4
Lightwave propagation and confinement; dielectric and semiconductor photonic devices; selected topics on applications and advanced research, e.g. optical communication, solar cells, solid state lighting, display and nanophotonics.
Textbook: B.E.A. Saleh and M.C. Teich, Fundamentals of Photonics.
Additional References: A. Yariv, Optical Electronics in Modern Communications; E. Hecht, Optics.

Ve534 X370012 光学与光子学
Course Name:  Optics and Photonics. Course Credits:  3
Fundamental theories of optics and photonics at the graduate level, lightwave propagation in free space and confining structures, interaction between light and matter in dielectric, semiconductor, plasmonic and nanoscale devices. FDTD methods for solving Maxwell equations are also introduced.
Textbook: Amnon Yariv and Pochi Yeh, Photonics: optical electronics in modern communications, 6th ed.
Additional References: H.A. Haus, Waves and Fields in Optoelectronics; Joseph T. Verdeyen, Laser Electronics; Lukas Novotny and Bert Hecht, Principles of Nano-Optics; Eugene Hecht, Optics.

Ve5002 C370013 半导体光电材料
Course Name:  Semiconductor Optoelectronic Materials. Course Credits:  3
Introduction to semiconductor optoelectronic materials and the underlying physics principles, including band structure theory, optical processes in semiconductors, and quantum confined materials. Frontier research topics and non-semiconductor materials will also be discussed.
Textbook: S.L. Chuang, Physics of Optoelectronic Devices.