Total internal reflection fluorescence microscope

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Amyloid-beta Pathology in C. elegans: Neuronal Seeds of Pathogenicity

Introduces a novel C. elegans model for studying Amyloid-beta pathology in Alzheimer's Disease, focusing on specific neuronal seeds of pathogenicity.

Super-Resolution Microscopy: Localization and Resolution

Explains super-resolution microscopy principles and the importance of molecule density for resolution.

Numerical Aperture and Resolution: Understanding Microscope Performance

Explores how Numerical Aperture enhances resolution in microscopy, showcasing historical examples and super-resolution microscopy advancements.

Biomicroscopy II: Logistics

Covers theory and hands-on experience with optical microscopes and advanced microscopy methods.

Microscopy at Nanoscale: Techniques and Applications

Covers resolution enhancement in optical microscopy, confocal imaging, and fluorescent labelling, exploring the history and techniques of scanning probe microscopy.

Optical filters: Understanding Fluorescence Microscopy

Explores optical filters in microscopy, including fluorescence principles, dye properties, and filter calibration.

Biomicroscopy Logistics

On Biomicroscopy Logistics covers the syllabus, schedule, and logistics of the course.

Optical Filters: Understanding Properties and Selection

Explains the importance of understanding optical filter properties and selecting suitable combinations for fluorescence microscopy.

Behavioural Control in Animals and Robots

Explores controlling behavior in animals and robots, covering historical perspectives, neuron activation, Drosophila model, advanced techniques, and mini-project organization.

Super Resolution Microscopy: STED Method

Explores the principles and applications of Super Resolution Microscopy using the STED method for achieving high-resolution imaging.