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Lecture
Laser Fundamentals: Gain, Absorption, and Resonators
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Mode Locking Techniques: Generating High Power Lasers
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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 Spectroscopy: Fundamentals and Applications
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Covers ultrafast lasers, non-linear optics, mode selection, cavity dumping, and chirped pulse amplification, exploring Nobel Prize-winning contributions in physics and chemistry.
Magnetic Resonance: Spin Qubits and Their Applications
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Optical Absorption: Understanding Semiconductor Behavior
Covers the principles of optical absorption in gases and semiconductors, detailing energy interactions and measurement techniques.
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Explores Doppler broadening, resonators, and the 3 level system in laser operation.
Laser Micro-Processing: Materials and Spectroscopy
Explores laser micro-processing of materials, fluorescence, spectroscopy, and band structures.
Laser Diodes: Relaxation Oscillations
Explores laser diodes' relaxation oscillations and their role in laser modulation, including random intensity noise effects and practical examples.
Gain saturation
Explores gain saturation in laser systems and the dynamics of atoms in different energy levels, emphasizing the balance between pumping and emission processes.
