NaI(Tl) Scintillators for Well-logging Applications
This article introduces the material properties and the working principles of NaI(Tl)/Thallium Doped Sodium Iodide Scintillators for well-logging applications.
Scintillation Screens for X-ray Imaging
This article describes the working principle of scintillators, what exactly a scintillation screen is, their vital role in X-ray imaging, and the various scintillation materials employed in these screens.
GOS Ceramics: A Comprehensive Guide
GOS ceramics, short for Gadolinium Oxysulfide, have emerged as a cutting-edge material with remarkable properties. This article describes the composition of GOS ceramics, introduces the variants of GOS ceramics (GOS:Pr and GOS:Tb), explores the applications of GOS ceramics in CT and X-ray imaging, and sheds light on the innovative GOS scintillation screen.
Optical Basics: The Nature of Light and Optical Elements
This article aims to provide a comprehensive understanding of essential Optical Basics, ranging from the nature of light (including wavelength, the electromagnetic spectrum, phase and amplitude, the wave-particle duality of light, to reflection, refraction, birefringence, and interference) to the operation principle of optical elements.
What are Scintillation Materials?
Scintillation materials are substances capable of converting high-energy radiation like X-rays or gamma rays into visible or near-visible light. Widely employed in medical diagnostics, high-energy physics, and geophysical exploration, scintillators come in various forms including gaseous, liquid, or solid compositions, and can be organic or inorganic such as glass, single crystals, or ceramics.
Showing 1 to 5 of 5 (1 Pages)