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Lecture
Microscopy Resolution: Understanding Diffraction Patterns
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Related lectures (31)
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Fourier Optics: Wavefront Analysis
Explores Fourier optics, diffraction principles, Fourier analysis, and the application of Fourier transform in optics.
Microscopy Resolution: Understanding Rayleigh Criteria
Explains microscopy resolution using Abbe's theory and Rayleigh criterion.
Microscopy: Resolution
Covers properties of the Fourier Transform and diffraction patterns in microscopy.
Spatial Frequencies and Wave Propagation
Explores spatial frequencies, wave propagation, diffraction phenomena, and optical filtering techniques.
Fourier transforms: Light-matter interaction
Explores Fourier and Laplace transforms in materials science, focusing on light-matter interaction, diffraction patterns, and crystal properties.
Diffraction: Fraunhofer and Fourier Transform
Covers the concepts of diffraction and Fourier transform relationship in Fraunhofer regime.
Beamlines: Elements of Front Ends and Optics
Explores the basic elements of optics theory, edge diffraction, and limits to focusing light.
Diffraction Basics II: Rules and Applications
Explores the rules of interference and diffraction patterns, including Young's experiment and Bragg's law.
Microscopy Resolution: Abbe's Theory & Fourier Terms
Covers Abbe's theory, Fourier terms, diffraction orders, and numerical aperture in microscopy resolution.
Reciprocal Lattice: Diffraction Basics III
Explores the reciprocal lattice, diffraction patterns, and atomic structure extraction.
