Compositionally Disordered Ceramic (Gd,Y,Tb,Ce)3Al2Ga3O12 Phosphor for an Effective Conversion of Isotopes’ Ionizing Radiation to Light

IF 2.7 Q1 MATERIALS SCIENCE, CERAMICS Ceramics-Switzerland Pub Date : 2023-09-21 DOI:10.3390/ceramics6030117
Mikhail V. Korzhik, Petr V. Karpyuk, Aliaksei G. Bondarau, Daria E. Lelecova, Vitaly A. Mechinsky, Vladimir Pustovarov, Vasilii Retivov, Valentina G. Smyslova, Dmitry Tavrunov, Denis N. Yanushevich
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Abstract

Compositionally disordered crystalline material (Gd,Y,Tb,Ce)3Al2Ga3O12 was demonstrated to be a highly effective converter of corpuscular ionizing radiation into light. The material was found to be radiation-tolerant to an intense 10 MeV electron beam and had a low temperature dependence on light yield. These findings open an opportunity to utilize the developed material to create long-living, high-flux sources of optical photons under the irradiation of isotope sources. Besides the purposes of the measurement of ionizing radiation by the scintillation method in a harsh irradiation environment, this puts forward the exploiting of the developed material for indirect isotope voltaic batteries and the consideration of a photon engine for travel beyond the solar system, where solar wind force becomes negligible.
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成分无序陶瓷(Gd,Y,Tb,Ce)3Al2Ga3O12荧光粉用于同位素电离辐射到光的有效转换
组成无序的晶体材料(Gd,Y,Tb,Ce)3Al2Ga3O12被证明是一种高效的微粒电离辐射转换成光的材料。该材料对强10 MeV电子束具有耐辐射性,并且对光产率具有较低的温度依赖性。这些发现为利用已开发的材料在同位素源的照射下创造长寿命、高通量的光子源提供了机会。除了在恶劣辐照环境下用闪烁法测量电离辐射的目的外,还提出了开发间接同位素光伏电池材料和考虑在太阳系外旅行的光子引擎,在那里太阳风的力量变得可以忽略不计。
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来源期刊
CiteScore
3.00
自引率
7.10%
发文量
66
审稿时长
10 weeks
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