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Lecture
Microscopy Techniques: Optical Methods and Image Formation
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Microscopy and Imaging Systems
Covers the fundamental concepts of microscopy, explaining the need for magnification beyond the human eye and introducing advanced imaging techniques.
Microscopy: Imaging Systems and Techniques
Covers the fundamentals of microscopy, including lens functioning, image creation, and advanced techniques like fluorescence and super resolution.
Optical Microscopy: Concepts and Applications
Explores optical microscopy principles, techniques, resolution limits, and Nobel Prize-winning advancements in microscopy.
Microscopy Resolution: Understanding Bright-Field and Dark-Field Techniques
Explores microscopy resolution, bright-field and dark-field techniques, and Rheinberg illumination for color contrast.
Optical Methods: Fourier Filtering and Phase Contrast
Discusses optical methods, focusing on Fourier filtering techniques and phase contrast microscopy for analyzing and enhancing image quality.
Basic Optical Microscopy: Techniques and Applications
Introduces basic optical microscopy techniques, including phase contrast and dark-field microscopy, and discusses the challenges of artifact identification.
Basic Optical Microscopy: Techniques for Polymer Morphological Characterization
Introduces basic optical microscopy for polymer characterization, covering resolution, contrast, and different observation modes.
Phase-Contrast Microscopy: Principles and Applications
Explores phase-contrast microscopy, polarization techniques, and the use of polarized light in revealing molecular orders in samples.
Differential Interference Contrast Microscopy
Explores Differential Interference Contrast microscopy, explaining its principles, equipment, image interpretation, and comparison with phase contrast microscopy.
Imaging modes in TEM
Explores imaging modes in TEM, covering electron interactions, diffraction, contrast formation, and astigmatism correction.
