Explores the principles and applications of gamma and neutron radiography in industrial settings, highlighting the advantages of using neutrons and discussing special techniques and industrial applications.
Explores radiation sources, including fast electron sources, heavy charged particle sources, and neutron sources, covering processes like beta decay, internal conversion, and Auger electrons.
Explores the interaction of neutrons with matter, covering cross sections, reaction rates, scattering, absorption, energy dependence, and the Doppler effect.
Explores the interaction of radiation with matter, covering reaction rate, cross section, X and gamma radiation, neutrons, and significant processes in radiation detection.
Explores the origins and advancements in medical imaging techniques, including X-rays, CT scans, ultrasound, and optical projection tomography, as well as the use of capsule endoscopy in diagnosing gastrointestinal diseases.
Explores large-area sensors for X-ray detection, covering direct and indirect methods, detector performance metrics, and active matrix flat panel imagers.
Explores the origin of radionuclides from supernova explosions and their role in nature, covering topics such as nuclear astrophysics, cosmic element formation, and stellar evolution.
