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Lecture
Beam Optics: Introduction and Applications
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Microscopy Resolution: Understanding Rayleigh Criteria
Explains microscopy resolution using Abbe's theory and Rayleigh criterion.
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Explores the interaction of x-rays with matter, matching photon energy, and ionizing radiation.
Introduction to Optics: Basics and Applications
Introduces the fundamental concepts of optics, covering quantum optics, wavy optics, and electromagnetic optics, as well as the principles of reflection, refraction, and image formation.
Electromagnetic Fields and Optics
Explores electromagnetic fields, forces, waves, optics, interference, diffraction, refraction, reflection, lenses, and instruments.
Wave Optics: Wave Phenomena & Interference
Explores wave propagation, diffraction, interference, and Young's double-slit experiment.
Interference in Optics
Explores interference in optics, Michelson interferometer, FT-IR spectroscopy, and fiber gyroscopes.
Human Vision: Optics and Perception
Explores human vision optics, eye structure, image formation, magnification, and wave divergence.
Exploring Synchrotron and XFEL Radiation: Applications and Techniques
Covers synchrotron and XFEL radiation, their applications, and experimental techniques across various scientific fields.
Microscopy Resolution: Understanding Diffraction Patterns
Explores microscopy resolution through diffraction patterns of various apertures and the use of spatial filters.
Optical Fiber Modes and Diffraction
Explores optical fiber modes, diffraction phenomena, and field calculations in fibers.
