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Lecture
Electro-Optic Modulators: Principles and Applications
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Related lectures (31)
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Explores nonlinear optics, covering light-matter interaction, second and third order effects, phase modulation, and frequency conversion processes.
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Covers bit error rate and eye diagrams in high-speed photodetectors, emphasizing their impact on optical communication performance.
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Explores optical bit stream generation and advanced modulation formats for efficient data transmission.
Ultrafast Semiconductor Lasers
Explores the Mixel project, showcasing the importance of ultrafast semiconductor lasers and their diverse applications.
Laser Amplification: Stimulated Emission and Mode-Locking
Explores laser amplification through stimulated emission and the generation of short pulses using mode-locking techniques.
Semiconductor Lasers: Rate Equations and Steady State Solutions
Delves into semiconductor laser rate equations, steady state solutions, dynamic behavior, and applications in optical communications.
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Covers basic communication concepts, symbol rate, bit rate, channel capacity, Shannon's channel coding theorem, and system performance evaluation.
Optical Pulse Propagation in Linear Media
Explores optical pulse propagation in linear and nonlinear media, covering group speed dispersion, chirp effects, and frequency transformations.
Amplitude and Phase Modulation
Covers the basics of laser operation, amplitude and phase modulation, and detectors.
Laser Systems and Atomic Transitions
Covers laser systems, atomic transitions, and light attenuation in lasers, focusing on the electron oscillator model and absorption coefficient.
