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Lecture
Optical Methods in Chemistry: Microscopy, Manipulation, Spectroscopy
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Related lectures (32)
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Optical Spectroscopy: Fundamentals and Applications
Covers the fundamentals of optical spectroscopy and its applications in various fields, exploring the design and operation of spectrometers.
Optical Methods in Chemistry
Introduces optical methods in chemistry, covering ray optics, lasers, spectroscopy, and X-ray physics, emphasizing light-matter interactions and Nobel Prize-winning advancements.
Optical Principles
Covers fundamental principles of ray and wave optics, including reflection, interference, diffraction, and spectroscopy.
Principles of Lasers: Optical Tweezers
Explores the principles of lasers, including lasing transitions and optical tweezers, with applications in various fields.
Analytical Electron Microscopy: Spectroscopy and Microanalysis
Explores Analytical Electron Microscopy techniques for chemical analysis using EELS and EDX.
Chirped Pulse Amplification: Ultrashort Laser Pulses
Explores chirped pulse amplification for ultrashort laser pulses and the significance of Carrier-Envelope Phase stabilization.
Inelastic Scattering in Transmission Electron Microscopy
Introduces inelastic scattering in transmission electron microscopy, focusing on electron energy-loss spectroscopy principles and applications.
Spectroscopy Insights
Explores spectroscopy concepts such as Rayleigh scattering and energy levels.
Raman & IR Spectroscopy: Molecular Vibrations & Spatial Resolution
Explores the molecular origin of IR absorption, Raman scattering, and the spatial resolution challenges in spectroscopy.
Optical Interference and Spectroscopy
Explores optical interference phenomena, spectroscopy principles, and interferometer applications in nano-positioning and gyroscopes.
