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Lecture
Microscopy Resolution: Understanding Rayleigh Criteria
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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 Diffraction Patterns
Explores microscopy resolution through diffraction patterns of various apertures and the use of spatial filters.
Transmission Electron Microscopy: Imaging and Diffraction
Explores the operation of a Transmission Electron Microscope, covering imaging modes and lens effects.
X-rays: From Discovery to Applications
Explores the historical perspective, properties, and applications of X-rays, including diffraction, atomic resolution, and spectral colors of elements.
Beamlines: Elements of Front Ends and Optics
Explores the basic elements of optics theory, edge diffraction, and limits to focusing light.
Diffraction: Fraunhofer and Fourier Transform
Covers the concepts of diffraction and Fourier transform relationship in Fraunhofer regime.
Microscopy: Resolution
Covers properties of the Fourier Transform and diffraction patterns in microscopy.
Spatial Resolution in Optics
Explores spatial resolution in optics, covering angular resolution, diffraction limits, numerical aperture, and microscope resolution.
Diffraction: Wave Phenomena and Interference
Explores diffraction phenomena, interference, and resolution limitations in imaging processes due to wave interference.
Principles of Lasers: Optical Tweezers
Explores the principles of lasers, including lasing transitions and optical tweezers, with applications in various fields.
