CHAPTER 1: THE BASICS

• Basic laser physics: Introduction; Absorption; Spontaneous and stimulated emission of light; Amplification; Basic laser setup; Gain, saturation and line broadening
• Basic properties of laser light: One direction; One frequency; One phase; Laser light is intense.

CHAPTER 2: LASER THEORY

• Introduction: The need for more than two energy levels; Rate equations for a 4-level laser
• Continuous-wave (cw) laser action: Output power in cw regime; Influence of experimental parameters; Transients
• Pulsed laser action: Introduction; Gain switching; Q-switching; Cavity dumping; Mode-locking; Ultra-short pulses

CHAPTER 3: LASER RESONATORS AND THEIR MODES

• Introduction
• Modes in a confocal resonator: Wave fronts; Frequencies; Transverse light distribution
• Modes in a non-confocal resonator: Stability criteria; Frequencies
• Modes in a waveguide resonator: Modes in a fiber waveguide resonator; Modes in an on-chip waveguide resonator
• Modes in a (free-space/waveguide) ring resonator
• Modes in a real laser: Line broadening; Selection of modes
• Saturation and hole-burning effects: Spatial hole burning; Spectral hole burning

CHAPTER 4: LASER BEAMS

• Gaussian beams: Basic Formulas; Propagation; Transformation by a lens and focusing; Transmission through a circular aperture
• Multimode beams: Introduction; Spot radius W for a multimode beam; Beam Propagation Factor M; A more theoretical approach; Practical use

CHAPTER 5: TYPES OF LASERS

• General introduction
• Gas lasers: General; Neutral gas (He-Ne); Ionized gas (argon ion); Molecules (CO2); Excimer lasers (ArF)
• Liquid lasers (dye laser)
• Solid-state lasers: General; Rare-earth-doped lasers (Nd:YAG and Er:fiber); Transition-metal-doped lasers (Ti: Sapphire); Changing the wavelength by optical nonlinear effects
• Other lasing mechanisms: Raman lasing

CHAPTER 6: LASER DIODES:OPERATION PRINCIPLES

• Geometry and important characteristics
• Material aspects: heterostructures, gain and absorption, low dimensional materials,
• Gain saturation
• Fabry-Perot laser diodes: cavity resonance
• Fabry-Perot laser diodes: rate equations and dynamic operation
• Noise: power spectrum and phase noise, injection locking

CHAPTER 7: OVERVIEW OF SEMICONDUCTOR LASER TYPES

• Distributed Feedback and Distributed Bragg Reflector laser diodes
• Vertical Cavity Surface Emitting Laser diodes
• Tunable laser diodes
• Quantum cascade lasers
• Laser diode packaging