A. Borisevitch, V. Dormenev, A. Fedorov, M. Korjik, T. Kuske, V. Mechinsky, O. Missevitch, R. Novotny, R. Rusack, A. Singovski
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引用次数: 3
摘要
钨酸铅族的闪烁晶体PWO, PWO- ii -在高能物理实验中被广泛应用于电磁量热计中。在电磁量热计工作期间,由于色心的产生,晶体的光学传输受到损害。在γ辐射作用下,除了对存在缺陷的晶体进行先验充值外,还会发生强子对晶体基体的破坏。因此,辐射诱导的光吸收会限制量热计的能量分辨率。我们通过技术上的努力,以最小的缺陷浓度获得完美的晶体,创造亚稳态色中心,并通过红外光刺激恢复色中心,从而最大限度地减少了辐射损伤的影响。本文讨论了辐射诱导吸收的受激恢复方法,这种方法甚至可以在现场应用。描述了γ和强子辐照损伤的机理。
Maintaining low radiation damage of lead tungstate scintillation crystals operating in high dose rate radiation environment
Scintillation crystals of the lead tungstate family — PWO, PWO-II — became widely used in electromagnetic calorimeters in high energy physics experiments at high luminosity accelerator facilities. During the operation of electromagnetic calorimeters a damage of the optical transmission of the crystals occurs due to creation of color centers. In addition to the recharge of a priori in the crystals existing defects by γ-radiation additional damage of the crystal matrix occurs due to hadrons. Therefore, radiation induced optical absorption can limit the energy resolution of the calorimeter. We have minimized radiation damage effects by technological efforts to obtain perfect crystals with a minimal concentration of the defects creating metastable color centers as well as the recoven' of color centers by stimulation with infrared light. In this paper we discuss the method of stimulated recovery of radiation induced absorption which can be even applied in situ. The mechanisms of the damage under γ- and hadronirradiation are described.
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