掺Pr3+的氟氧化物锂玻璃作为用于核聚变诊断的闪烁体。
Pr3+-doped fluoro-oxide lithium glass as scintillator for nuclear fusion diagnostics.
作者信息
Arikawa Yasunobu, Yamanoi Kohei, Nakazato Tomoharu, Estacio Elmer Surat, Shimizu Toshihiko, Sarukura Nobuhiko, Nakai Mitsuo, Norimatsu Takayoshi, Azechi Hiroshi, Murata Takahiro, Fujino Shigeru, Yoshida Hideki, Kamada Kei, Usuki Yoshiyuki, Suyama Toshihisa, Yoshikawa Akira, Sato Nakahiro, Kan Hirofumi
机构信息
Institute of Laser Engineering, Osaka University, 2-6 Yamadaoka, Suita, Osaka 565-0871, Japan.
出版信息
Rev Sci Instrum. 2009 Nov;80(11):113504. doi: 10.1063/1.3254444.
Experimental results are presented on the neutron scintillating properties of a custom-designed Pr3+ (praseodymium)-doped lithium (Li) glass. Luminescence was observed at 278 nm wavelength, originating from the 5d-4f transition. Time-resolved measurements yielded about 20 ns decay times for ultraviolet and x-ray excitation while much faster decay times of about 6 ns were observed for alpha particle and neutron excitation. Actual time-of-flight data in laser fusion experiments at the GEKKO XII facility of the Institute of Laser Engineering, Osaka University reveal that it can clearly discriminate fusion neutrons from the much stronger x-rays signals. This material can promise improved accuracy in future scattered neutron diagnostics.
展示了关于一种定制设计的掺镨(Pr3+)锂(Li)玻璃的中子闪烁特性的实验结果。在278纳米波长处观察到发光,其源于5d-4f跃迁。时间分辨测量结果表明,对于紫外线和X射线激发,衰减时间约为20纳秒,而对于α粒子和中子激发,观察到的衰减时间要快得多,约为6纳秒。大阪大学激光工程研究所的GEKKO XII设施进行的激光聚变实验中的实际飞行时间数据表明,它能够清晰地将聚变中子与强得多的X射线信号区分开来。这种材料有望在未来的散射中子诊断中提高准确性。
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