European Physical Journal C: Particles and Fields (Dec 2023)

Measurement of the double- $$\varvec{\beta }$$ β decay of $$\varvec{^{150}}$$ 150 Nd to the 0 $$\varvec{^+_1}$$ 1 + excited state of $$\varvec{^{150}}$$ 150 Sm in NEMO-3

  • X. Aguerre,
  • R. Arnold,
  • C. Augier,
  • A. S. Barabash,
  • A. Basharina-Freshville,
  • S. Blondel,
  • S. Blot,
  • M. Bongrand,
  • R. Breier,
  • V. Brudanin,
  • J. Busto,
  • A. Bystryakov,
  • A. J. Caffrey,
  • C. Cerna,
  • J. P. Cesar,
  • M. Ceschia,
  • E. Chauveau,
  • A. Chopra,
  • L. Dawson,
  • D. Duchesneau,
  • D. Durand,
  • J. J. Evans,
  • R. Flack,
  • P. Franchini,
  • X. Garrido,
  • C. Girard-Carillo,
  • B. Guillon,
  • P. Guzowski,
  • M. Hoballah,
  • R. Hodák,
  • P. Hubert,
  • M. H. Hussain,
  • S. Jullian,
  • A. Klimenko,
  • O. Kochetov,
  • S. I. Konovalov,
  • F. Koňařík,
  • T. Křižák,
  • D. Lalanne,
  • K. Lang,
  • Y. Lemière,
  • P. Li,
  • P. Loaiza,
  • G. Lutter,
  • M. Macko,
  • F. Mamedov,
  • C. Marquet,
  • F. Mauger,
  • A. Minotti,
  • B. Morgan,
  • I. Nemchenok,
  • M. Nomachi,
  • F. Nowacki,
  • H. Ohsumi,
  • G. Oliviéro,
  • V. Palušová,
  • C. Patrick,
  • F. Perrot,
  • M. Petro,
  • A. Pin,
  • F. Piquemal,
  • P. Povinec,
  • S. Pratt,
  • P. Přidal,
  • W. S. Quinn,
  • Y. A. Ramachers,
  • A. Remoto,
  • J. L. Reyss,
  • C. L. Riddle,
  • E. Rukhadze,
  • R. Saakyan,
  • A. Salamatin,
  • R. Salazar,
  • X. Sarazin,
  • J. Sedgbeer,
  • Yu. Shitov,
  • L. Simard,
  • F. Šimkovic,
  • A. Smetana,
  • A. Smolnikov,
  • S. Söldner-Rembold,
  • I. Štekl,
  • J. Suhonen,
  • G. Szklarz,
  • H. Tedjditi,
  • J. Thomas,
  • V. Timkin,
  • V. I. Tretyak,
  • V. I. Tretyak,
  • V. I. Umatov,
  • I. Vanushin,
  • Y. Vereshchaka,
  • V. Vorobel,
  • D. Waters,
  • F. Xie

DOI
https://doi.org/10.1140/epjc/s10052-023-12227-x
Journal volume & issue
Vol. 83, no. 12
pp. 1 – 12

Abstract

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Abstract The NEMO-3 results for the double- $$\beta $$ β decay of $$^{150}$$ 150 Nd to the 0 $$^+_1$$ 1 + and 2 $$^+_1$$ 1 + excited states of $$^{150}$$ 150 Sm are reported. The data recorded during 5.25 year with 36.6 g of the isotope $$^{150}$$ 150 Nd are used in the analysis. The signal of the $$2\nu \beta \beta $$ 2 ν β β transition to the 0 $$^+_1$$ 1 + excited state is detected with a statistical significance exceeding 5 $$\sigma $$ σ . The half-life is measured to be $$T_{1/2}^{2\nu \beta \beta }(0^+_1) = \left[ 1.11 ^{+0.19}_{-0.14} \,\left( \hbox {stat}\right) ^{+0.17}_{-0.15}\,\left( \hbox {syst}\right) \right] \times 10^{20}$$ T 1 / 2 2 ν β β ( 0 1 + ) = 1 . 11 - 0.14 + 0.19 stat - 0.15 + 0.17 syst × 10 20 year, which is the most precise value that has been measured to date. 90% confidence-level limits are set for the other decay modes. For the $$2\nu \beta \beta $$ 2 ν β β decay to the 2 $$^+_1$$ 1 + level the limit is $$T^{2\nu \beta \beta }_{1/2}(2^+_1) > 2.42 \times 10^{20}~\hbox {year}$$ T 1 / 2 2 ν β β ( 2 1 + ) > 2.42 × 10 20 year . The limits on the $$0\nu \beta \beta $$ 0 ν β β decay to the 0 $$^+_1$$ 1 + and 2 $$^+_1$$ 1 + levels of $$^{150}$$ 150 Sm are significantly improved to $$T_{1/2}^{0\nu \beta \beta }(0^+_1) > 1.36 \times 10^{22}~\hbox {year}$$ T 1 / 2 0 ν β β ( 0 1 + ) > 1.36 × 10 22 year and $$T_{1/2}^{0\nu \beta \beta }(2^+_1) > 1.26 \times 10^{22}~\hbox {year}$$ T 1 / 2 0 ν β β ( 2 1 + ) > 1.26 × 10 22 year .