PHYS435Download as PDFLaser OpticsMathematics, Physics & AstronomyUndergraduateCollege of Science and EngineeringGeneralPrerequisitesCreditsGoalsLearning OutcomesCourse OutlineDependenciesCourse OutlineLaser safety. 5% Physical optics of lasers, radiation, and spectra. 15% Basic laser physics: oscillation, gain, rate equations, saturation, modes. 15% Advanced laser physics: polarization, pulse formation, matrices. 10% Incoherent electromagnetic radiation sources. 10% Optical beams: Gaussian beams, radiometry, propagation through media. 15% Laser applications in physics, industry, and engineering. 20% Laser applications for and physics of optical sensors and detectors. 10%
Laser safety. 5% Physical optics of lasers, radiation, and spectra. 15% Basic laser physics: oscillation, gain, rate equations, saturation, modes. 15% Advanced laser physics: polarization, pulse formation, matrices. 10% Incoherent electromagnetic radiation sources. 10% Optical beams: Gaussian beams, radiometry, propagation through media. 15% Laser applications in physics, industry, and engineering. 20% Laser applications for and physics of optical sensors and detectors. 10%