Frontiers in Physics (Mar 2023)

Preparation of low-radioactive high-purity enriched 100MoO3 powder for AMoRE-II experiment

  • Hyojin Yeon,
  • JunSeok Choe,
  • Olga Gileva,
  • Kevin Insik Hahn,
  • Kevin Insik Hahn,
  • Woon Gu Kang,
  • Go Woon Kim,
  • Hong Joo Kim,
  • Yena Kim,
  • Yeongduk Kim,
  • Yeongduk Kim,
  • Eun Kyung Lee,
  • Moo Hyun Lee,
  • Moo Hyun Lee,
  • Douglas S. Leonard,
  • Vitaly Milyutin,
  • HyangKyu Park,
  • Su-Yeon Park,
  • KeonAh Shin

DOI
https://doi.org/10.3389/fphy.2023.1142136
Journal volume & issue
Vol. 11

Abstract

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This paper describes preparing radiopure molybdenum trioxide powder enriched with Mo-100 isotope for the AMoRE-II experiment. AMoRE-II, the second phase of the AMoRE experiments, will search for the neutrinoless double-beta decay (0νDBD) of the 100Mo isotope using over 100 kg of 100Mo embedded in 200 kg of ultra-pure Li2100MoO4 bolometric crystals. Efficient purification technology was developed and adapted to purify 100MoO3 powder with a 5 kg per month production capacity. Based on the ICP-MS analysis of purified powder, the 232Th and 238U were reduced to <9.4 μBq/kg and <50 μBq/kg, respectively. The concentrations of potassium, transition metals, and heavy metals were lower than 1 ppm. HPGe counting confirmed the reduction of progenies from the 232Th and 238U decay chains, reporting upper limits of <27 μBq/kg for 228Ac and <16 μBq/kg for 228Th. The 226Ra activity was acceptable at 110 ± 30 μBq/kg. In the last 3 years, 100 kg of pure 100MoO3 powder was produced. The production yield for the final purified product was above 90%, while irrecoverable losses were under 1.5%, and all by-products could be recycled further.

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