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Covers the Fast Fourier Transform (FFT) algorithm and its applications in computational physics, including image processing, experimental techniques, filters, and analysis of microscopy images.
Explores coherence and interferometry principles, including statistical optics, autocorrelation functions, and optical coherence tomography applications.
Delves into atoms interaction, leading to molecule formation and crystalline structures, covering topics like Lennard Jones potential and chemical reaction principles.
Explores control and sensitivity analysis of an Atomic Force Microscope, emphasizing the importance of high gain for reducing sensitivity at resonance.
Explores chemical bonding in solids, band structure, and surface scattering techniques for lattice parameter measurements and crystal orientation analysis.
