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Lecture
Optical fibers: modes
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Related lectures (32)
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Nonlinear Phase Shift Calculation
Explains how to calculate the nonlinear phase shift in different mediums.
Guided Propagation: Modes and Wave Impedance
Explores guided propagation of electromagnetic waves, covering modes, wave impedance, dispersion, and distortion effects in different structures.
3D Printing with Optical Fibers
Explores 3D printing with laser technologies and optical fibers, showcasing high-resolution printing techniques and challenges.
Laser Systems and Atomic Transitions
Covers laser systems, atomic transitions, and light attenuation in lasers, focusing on the electron oscillator model and absorption coefficient.
Optical Fibers: Types and Applications
Explores optical fibers' manufacturing, types, and applications, including light propagation and single-mode conditions.
Optical MEMS Basics and Applications
Explores Optical MEMS basics, actuation mechanisms, applications, market overview, key metrics in fiber-optic devices, and tunable lasers.
Fiber Bragg Gratings: Fundamentals and Applications
Explores Fiber Bragg Gratings, FBG fabrication, spectral response, dispersion compensation, and transmission limitations in optical communication.
Laser Systems and Atomic Transitions
Covers laser operation, systems, atomic transitions, gain, and absorption coefficient in the Lorentz model.
Communication System Design: Rise Time and Dispersion Limits
Covers dispersion and rise time limits in communication systems and the evolution of fiber components.
Laser Systems
Covers the fundamental concepts of laser operation, including dispersion theory, gain and resonators, different types of laser systems, noise characteristics, optical fibers, ultrafast lasers, and nonlinear frequency conversion.
