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Kirchhoff's diffraction formula
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Fourier optics
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Related lectures (32)
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Diffraction Basics II: Rules and Applications
Explores the rules of interference and diffraction patterns, including Young's experiment and Bragg's law.
Crystallography: Describing Periodic Structures
Covers crystallography, lattice structures, vectors, and diffraction patterns.
Revision Session: Constants and Equations
Covers fundamental constants, key equations, energy levels, photon energy, atomic structure, and more.
Phase-Contrast Tomography: Techniques and Applications
Explores phase-contrast imaging techniques and applications in various samples.
X-ray Techniques and Applications
Explores synchrotrons, x-ray techniques, Fresnel equations, roughness, and multilayers for film growth monitoring.
Fourier Optics: Wavefront Analysis
Explores Fourier optics, diffraction principles, Fourier analysis, and the application of Fourier transform in optics.
Bragg's law: Transmission Microscopy
Explains Bragg's law in Transmission Electron Microscopy, focusing on the relationship between wavelength, crystal lattice spacing, and diffraction angle.
Dynamical scattering: double diffraction
Delves into double diffraction in dynamical scattering, showcasing diffraction spots for forbidden planes and the Ewald sphere/reciprocal lattice.
Diffraction Basics IV: Bragg's Law and Rotations
Explains Bragg's law, rotations in space, and the Ewald sphere for diffraction.
Diffraction: Fraunhofer and Fourier Transform
Covers the concepts of diffraction and Fourier transform relationship in Fraunhofer regime.
