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Related lectures (31)
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Gaussian Beams: Properties and Applications
Explores Gaussian beams, beam quality, optical fibers, laser diode stacks, and mask projection systems.
Paraboloidal Waves and Gaussian Beams
Covers paraboloidal waves, Gaussian beams, intensity, size, and laser pulse applications.
Optical Waves: Gaussian Beams
Explores optical wave propagation, total internal reflection, and Gaussian beams.
Semiconductor Lasers: Beam Quality
Explores semiconductor lasers, gain saturation, and beam quality evaluation in laser systems.
Transverse Cavity Modes: Laser Oscillations
Covers transverse cavity modes, resonator modes, Gaussian amplitude, laser oscillations, and gain saturation mechanisms.
Laser Beam Reflection and Gaussian Beams
Explores laser beam reflection, Gaussian beams, and beam focusing concepts.
Beam Quality and Fiber Coupling in Lasers
Discusses beam quality in lasers, focusing on the beam parameter product and its applications in fiber coupling and modulation speed.
Laser Micro-Processing: Beam Quality & Delivery
Explores laser micro-processing, covering beam size, quality, focusing, and interference methods.
Gaussian Beams: Theory and Properties
Explores Gaussian beams, covering theory, properties, and applications in optics.
Laser Beam Reflection and Divergence
Covers reflecting laser beams, measuring distances precisely, beam divergence, and focusing beams with lenses.
Focusing Thermal Sources: Gaussian Beams
Explores the transformation of spherical waves into converging ones using lenses and discusses Gaussian beams' properties and focusing of thermal sources.
Laser microprocessing: beam steering and beam quality
Explores laser microprocessing, focusing on beam quality, Gaussian beams, Rayleigh range, and optical fibers in high-power laser systems.
Semi-conductor laser and beam quality
Explores semi-conductor lasers, beam quality, direct vs. indirect bandgap, and M2 parameter significance.
Laser Manufacturing: Characteristics and Applications
Explores laser characteristics, interaction with matter, and industrial applications in manufacturing processes.
Introduction to Laser Micromachining
Covers laser micromachining applications, laser-matter interaction, photon concepts, Gaussian beams, and femtosecond laser processes.
Selective Laser Sintering and Melting
Explores the principles and equipment of Selective Laser Sintering and Melting.
Geometrical Optics: Thin Lens and Optical Devices
Explores making images with thin lenses, optical devices, beam divergence, and diffraction.
Influence Lines: Mobile Loads
Covers the calculation of influence lines for mobile loads and the variation of static effects.
Selective Laser Sintering and Melting: EBDM and DMD
Explores scaling processes in laser sintering, EBDM, and DMD technologies.
Projection Imaging and Physics of Materials
Explores mask projection systems, laser micro-processing, submicron structures, Gaussian beams, waveguiding principles, and light-materials interaction.
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