Rapid Analysis of mathrm{²²⁶Ra} in Ultrapure Gadolinium Sulfate Octahydrate
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Numerous particle physics experiments utilize gadolinium (Gd), a rare earth element with the most significant neutron capture cross-section among all elements, to detect anti-neutrinos via inverse beta-decays or to remove neutron-induced background events. For example, to load Gd into water Cherenkov detectors, $\mathrm{{Gd_{2}(SO_{4})_{3}\cdot 8H_{2}O}}$ is dissolved and rare event search experiments are required to screen for radioactive impurities in $\mathrm{{Gd_{2}(SO_{4})_{3}\cdot 8H_{2}O}}$ before dissolution. This study developed a new method to rapidly measure the radium-226($\mathrm{^{226}Ra}$) concentration in $\mathrm{{Gd_{2}(SO_{4})_{3}\cdot 8H_{2}O}}$. This method requires only three days to measure a batch of samples, as opposed to the usual method using high-purity germanium detectors, which takes approximately 20 days after arrival. The detection limit for the measurement of $\mathrm{^{226}Ra}$ is 0.32 mBq/kg. This method has been already used for $\mathrm{{Gd_{2}(SO_{4})_{3}\cdot 8H_{2}O}}$ screening at the Super-Kamiokande Gd(SK-Gd) project, and it can be applied to future experiments.
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