Title :
Infrared scintillation in gases, liquids and crystals
Author :
Belogurov, S. ; Bressi, G. ; Carugno, G. ; Conti, E. ; Iannuzzi, D. ; Meneguzzo, A.T.
Author_Institution :
ITEP, Moscow, Russia
fDate :
12/1/2000 12:00:00 AM
Abstract :
We report about experimental evidences of infrared scintillation in gaseous, liquid and crystal samples. We firstly studied noble gases at room temperature and near atmospheric pressure in the wavelength range between 0.7 and 1.81 μm. Ar gas emits infrared photons when irradiated by a proton beam. Ionization electrons also induce such emission when they drift in the medium. The spectrum shows sharp lines corresponding to transitions between atomic excited states. Also Xe gas scintillates in the infrared region with a quantum yield higher than 2·104 photons/MeV. Protons induce infrared scintillation in liquid Ar and liquid Xe too. We irradiated many inorganic crystals and studied their infrared emission between 1 and 15 μm. Some samples present significant infrared scintillation. Among them CsI(Tl) has the highest yield ((4.9±0.3)·103 photons/MeV restricted to 0.7+1.8 μm). The spectrum shows a broad line centered around 1.55 μm
Keywords :
gas scintillation detectors; liquid scintillation detectors; scintillation; solid scintillation detectors; 0.7 to 1.8 mum; 1 to 15 mum; Ar; CsI:Tl; Xe; atmospheric pressure; crystals; gases; infrared scintillation; liquids; noble gases; proton beam; quantum yield; room temperature; sharp lines; Argon; Atmospheric waves; Electron emission; Gases; Ionization; Liquid crystals; Particle beams; Photonic crystals; Protons; Temperature distribution;
Journal_Title :
Nuclear Science, IEEE Transactions on
