Concept

X-ray optics

Related lectures (19)

Explores radiometry, photometry, laser power distribution, and light behavior in different media.

Introduces the basic principles of ray optics, covering topics such as microscopy aspects, image formation, and laws of reflection and refraction.

Optical Tweezers: Basics and Applications

Covers the basics of optical tweezers and their applications in microscopy, manipulation, and spectroscopy, as well as the alignment of molecules using laser pulses.

Optical Methods in Chemistry

Introduces optical methods in chemistry, covering ray optics, lasers, spectroscopy, and X-ray physics, emphasizing light-matter interactions and Nobel Prize-winning advancements.

Principles of Lasers: Optical Tweezers

Explores the principles of lasers, including lasing transitions and optical tweezers, with applications in various fields.

Image Formation: Lens and Mirror System

Covers the formation of images by lens and mirror systems.

Beamlines: Primary Optics Part 2

Explores types of x-ray mirrors, coatings, and absorption edges, essential for optimizing beamline performance.

Beam Optics: Introduction and Applications

Covers beam optics, Gaussian beams, and wavefront curvature in various applications.

Ray Optics: Thin Lens

Explains ray optics principles, focusing on thin spherical lenses and object-image relationships.

Optical Principles

Covers fundamental principles of ray and wave optics, including reflection, interference, diffraction, and spectroscopy.

Optical Methods in Chemistry: Microscopy, Manipulation, Spectroscopy

Explores optical methods in chemistry, covering microscopy, manipulation, and spectroscopy techniques.

Advanced Optics: Electromagnetic Spectrum

Explores electromagnetic optics, quantum optics, and Maxwell's equations in different mediums.

Biomicroscopy Logistics

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

Advanced Optics: Fundamentals and Applications

Covers fundamental topics in advanced optics, including ray optics, wave optics, and polarization optics.

X-ray Scattering Techniques

Explores x-ray scattering techniques, including radius of gyration, Guinier and Porod regimes, polydispersity, and experimental details.

X-ray Diffraction in Crystals

Covers X-ray diffraction in crystals, focusing on diffraction principles and constructive interference.

Advanced Optics: Matrix Theory and Equivalence

Explores matrix theory in multilayer optics and the equivalence between transfer and scattering matrices.

Interference Phenomenon: Double Slit Experiment

Explores the interference phenomenon in a double slit experiment to determine maximum positions and separation, analyzing the impact of factors like wavelength and slit width.

Lensless Imaging: Techniques and Applications

Explores lensless imaging techniques, phase-retrieval, coherent x-ray diffractive imaging, and applications in small-angle x-ray scattering.