Collins S M, Gilligan C, Pierson B, Ramirez N, Goodwin M, Pearce A K, Archambault B C, Haney M M, Regan P H
National Physical Laboratory, Hampton Road, Teddington, Middlesex, TW11 0LW, United Kingdom; Department of Physics, University of Surrey, Stag Hill, Guildford, GU2 7XH, United Kingdom.
Atomic Weapons Establishment, Aldermaston, Reading, Berkshire, RG7 4PR, United Kingdom.
Appl Radiat Isot. 2022 Apr;182:110140. doi: 10.1016/j.apradiso.2022.110140. Epub 2022 Feb 7.
There is significant interest in the use of terbium radioisotopes for applications in cancer therapy and diagnosis. Of these, Tb, as a medium energy beta-emitter, is being investigated as a potential alternative to Lu. The relatively high proportion of conversion electron and Auger electron emissions per decay make Tb an attractive targeted therapeutic. As a product of nuclear fission, Tb is also of importance to nuclear forensics. The standard uncertainty of the current evaluated half-life of 6.89(2) d contributes significantly to the standard uncertainty of any decay corrected activity determination made. Furthermore, the accuracy of this evaluated half-life has been called into question by measurements reported in 2020 at the Institute of Radiation Physics (IRA), Switzerland, who reported a half-life of 6.953(2) d. In the current work, the half-life of the Tb ground state decay has been measured at three independent laboratories located in the United Kingdom and the United States of America for a total of six determinations using three independent measurement techniques; gamma-ray spectrometry, ionisation chamber measurement and liquid scintillation counting. The half-life determined for Tb of 6.9637(29) d confirms the observed 1% relative increase observed by IRA, though the reported half-lives in this work and at IRA are significantly different (ζ-score = 3.1).
人们对使用铽放射性同位素进行癌症治疗和诊断应用有着浓厚的兴趣。其中,作为中能β发射体的铽正被研究作为镥的潜在替代品。每次衰变中相对较高比例的转换电子和俄歇电子发射使铽成为一种有吸引力的靶向治疗手段。作为核裂变的产物,铽对核法医鉴定也很重要。当前评估的半衰期为6.89(2)天的标准不确定度对任何经衰变校正的活度测定的标准不确定度有很大贡献。此外,瑞士辐射物理研究所(IRA)在2020年报告的测量结果对这个评估半衰期的准确性提出了质疑,该研究所报告的半衰期为6.953(2)天。在当前的工作中,铽基态衰变的半衰期已在位于英国和美国的三个独立实验室进行了测量,总共使用三种独立测量技术进行了六次测定;γ射线能谱法、电离室测量法和液体闪烁计数法。确定的铽半衰期为6.9637(29)天,证实了IRA观察到的1%的相对增加,尽管这项工作和IRA报告的半衰期有显著差异(ζ分数 = 3.1)。
