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Lasers are essential to an incredibly large number of applications. Today, they are used in bar code readers, compact discs, medicine, communications, sensors, materials processing, computer printers, data processing, 3D-imaging, spectroscopy, navigation, non-destructive testing, chemical processing, color copiers, laser “shows”, and the military. There is hardly a field untouched by the laser. But what, exactly, is so unique about lasers that makes them so effective? Join Professor Shaoul “Ziggy” Ezekiel, MIT Professor in the Department of Electrical Engineering and Computer Science and Department of Aeronautics and Astronautics and find out. Various courses in lasers and laser applications are available from this famous educator through: Short Courses via MIT Fundamentals
of Lasers, Fiberoptics and
Their Unique Applications Understanding
Photonics and Its Unique Applications Basics of Optical Components for Wideband Fiberoptic
Communication Basics of Laser Interferometry and Applications Basics of Laser Wavelength Stabilization Basics of Laser Spectroscopic Methods Understanding Lasers and Their Applications Understanding Lasers and Fiberoptics Demonstrations in Lasers
and Optics |
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Lasers;
Understanding Lasers; Gas lasers; Solid-State Lasers; Chemical
Lasers; Dye Lasers;
Semiconductor Lasers; Diode Lasers; Light Emitting
Diodes; LEDs;
Vertical Cavity Surface Emitting Lasers; VCSELs; Distributed
Feedback Lasers;
DFB Lasers; Edge Emitting Lasers; Surface Emitting Lasers;
Optically Pumped
Lasers; Diode Pumped Lasers; Tunable Lasers; High Power
Lasers; Mode
Locked Lasers; Femto Second Lasers; Superluminescent Lasers;
SLD; Laser
Linewidth; Frequency Stabilization of Lasers; Intensity
Stabilization of
Lasers; Single Mode Lasers; Multimode Lasers; Transverse
Modes; Short Course
on Lasers; Population Inversion; Optical Pumps;
Fiberoptics;
Light Pipes; Step Index Fibers; Graded Index Fibers; Single
Mode Fibers;
Multimode Fibers; Polarization Maintaining Fibers; Fiber
Lasers; Fiber Couplers;
Fiber Splices; Thin Film Waveguides; Integrated
Optics
Waveguides; GRIN Lenses; Integrated Opics Chip; Waveguide Lasers;
Short Course on
Fiberoptics;
Photonics;
Understanding Photonics; Wavelength Division Multiplexing; WDM;
Time Division
Multiplexing; TDM; Optical Switches; Optical Modulators; Star
Couplers; Optical
Filters; Add Drop Filters; Add Drop Channels; Optical
Multiplexer; MUX;
Optical Demultiplexer; DEMUX; Optical Circulator; Optical
Isolator; Optical
Gratings; Fiber Gratings; Bragg Gratings; Optical
Sensors;
Fiberoptic Gyroscopes; IFOGs; FOGs; RLGs; Ring Laser Gyroscopes;
Fiber Strain
Sensors; Magnetic Sensors; Flow Sensors; LDVs; Laser Doppler
Velocimeters;
Broadband Communication; Ultra Broadband Communication;
Light Absorption;
Spontaneous Emission; Stimulated Emission; Light
Scattering;
Nonlinear Optics; Optical Amplifiers; Longitudinal Modes;
Transvers Modes;
Optical Interference; Interferometers; Multiple Beam
Interference;
Fiber Amplifiers; Optical Cavities; Fabry Perot
Interferometers;
Holography; Nanotechnology; Optical Memories; Smart
Weapons; Smart
Structures; Optical Components; Electrooptics;
Magnetooptics;
Acoustooptics; Optoelectronic Devices; Optical Remote
Sensing; Chemical
Sensing; Medical Diagnostics; Total Internal Reflection;
Fresnel
Reflection; Evanescent Waves; Rayleigh Scattering; Brewster's
Angle; Critical
Angle; Optical Data Processing; Optical Computing;