A phosphor of the present invention has a crystal structure in which at least one of Ce.sup.3+ and Eu.sup.2+ is substituted for a part of a host crystal that contains at least one of an alkaline earth metal element and a rare earth element and does not contain an alkaline metal element. In the phosphor, a light emission spectrum measured at room temperature has a light emission peak, which is derived from at least one of Ce.sup.3+ and Eu.sup.2+, within a wavelength range of 440 nm or more to less than 1200 m, the light emission peak indicates a maximum intensity value of the light emission spectrum, and a refractive index is 1.41 or more to less than 1.57.

Li-containing scintillator compositions, as well as related structures and methods are described. Radiation detection systems and methods are described which include a Cs.sub.2LiLn Halide scintillator composition.

Provided is a scintillator panel including: a support; a scintillator layer provided on the support, the scintillator layer being composed of a columnar crystal; and a protective film covering at least the scintillator layer. The scintillator layer contains cesium iodide as a base material and cerium as an activator.

Scintillator materials, as well as related systems, and methods of detection using the same, are described herein. The scintillator material composition may comprise a Tl-based scintillator material. For example, the composition may comprise a thallium-based halide. Such materials have been shown to have particularly attractive scintillation properties and may be used in a variety of applications for detection radiation.

Scintillator materials, as well as related systems, and methods of detection using the same, are described herein. The scintillator material composition may comprise a Tl-based scintillator material. For example, the composition may comprise a thallium-based halide. Such materials have been shown to have particularly attractive scintillation properties and may be used in a variety of applications for detection radiation.