(I) PROPAGATION OF OPTICAL RAYS AND BEAMS 1. WAVE EQUATION IN QUADRATIC MEDIA 2. GAUSSIAN BEAM PROPAGATION (II) THEORY OF LASER 1. OPTICAL RESONATOR 2. INTERACTION BETWEEN LIGHT AND ATOM 3. LASER OSCILLATOR 4. MODE LOCKING AND Q-SWITCHING 5. SOME SPECIFIC LASERS (III) ELECTRO-OPTIC MODULATION OF LASER BEAMS 1. ANISOTROPY 2. POCKELS EFFECT 3. KERR EFFECT 4. MAGNETO-OPTIC EFFECT 5. ACOUSTO-OPTIC EFFECT (IV) NOISE IN OPTICAL DETECTION AND GENERATION 1. SPECTRAL DENSITY FUNCTION 2. SHOT NOISE AND JOHNSON NOISE 3. SPONTANEOUS EMISSION NOISE IN LASER OSCILLATORS

THIS COURSE IS A ENTRY LEVEL PHOTONICS COURSE. IT MAINLY FOCUSES ON BASIC THEORIES, ESPECIALLY ON THE GENERATION, PROPAGATION, MODULATION, AND DETECTION OF LASER.

DIFFERENTIAL EQUATIONS, MODERN PHYSICS, AND EM WAVE

A. YARIV AND P. YEH, “PHOTONICS: OPTICAL ELECTRONICS IN MODERN COMMUNICATIONS,” 6TH ED., OXFORD UNIVERSITY PRESS, 2007. 1. A. YARIV, “QUANTUM ELECTRONICS,” 3RD ED., 1989. 2. A. SIEGMAN, “LASERS,” 1986.