<p>Universality in physics describes the emergence of common features in vastly different systems. One fascinating example is the Efimov phenomenon where three-body resonantly interacting systems display universal properties. Efimov states have been observed in ultra-cold-atom systems, but their manifestation in nuclei remains elusive due to the long-range repulsive Coulomb interaction and the stringent requirement for at least two <i>s</i>-wave resonances in its subsystems. Recent theories propose another universality in three-body halos with only one <i>s</i>-wave resonance. Here, we report the identification of a precursor of this phenomenon in a neutron-rich <sup>10</sup>He nucleus. With higher statistics and better sensitivities than previous experiments, we identify two low-lying 0<sup>+</sup> states of <sup>10</sup>He at &#xa0;~&#xa0;1 MeV and &#xa0;~&#xa0;2 MeV above its two-neutron decay threshold, and determine an <i>s</i>-wave scattering length of &#xa0;~&#xa0;−&#xa0;3.5 fm between <sup>8</sup>He and neutron. It is revealed that the lower energy state, the ground state of <sup>10</sup>He, is a three-body state with only <i>s</i>-wave interactions among its subsystems. This state manifests as a resonance structure, which is a direct consequence of a universal long-range three-body repulsion. Our work sheds new light on quantum halos with finite lifetimes, providing a path toward their unified understanding across various scales and fields.</p>

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Identification of a universal three-body s-wave resonance in 10He

  • Y. L. Sun,
  • Y. Kikuchi,
  • A. Corsi,
  • Y. Kubota,
  • M. Gómez-Ramos,
  • S. Endo,
  • G. Authelet,
  • H. Baba,
  • C. Caesar,
  • D. Calvet,
  • A. Delbart,
  • M. Dozono,
  • J. Feng,
  • F. Flavigny,
  • J. -M. Gheller,
  • J. Gibelin,
  • A. Giganon,
  • A. Gillibert,
  • S. Giraud,
  • K. Hasegawa,
  • T. Isobe,
  • Y. Kanaya,
  • S. Kawakami,
  • D. Kim,
  • Y. Kiyokawa,
  • M. Kobayashi,
  • N. Kobayashi,
  • T. Kobayashi,
  • Y. Kondo,
  • Z. Korkulu,
  • S. Koyama,
  • V. Lapoux,
  • Y. Maeda,
  • F. M. Marqués,
  • T. Miyazaki,
  • T. Motobayashi,
  • T. Nakamura,
  • N. Nakatsuka,
  • Y. Nishio,
  • A. Obertelli,
  • A. Ohkura,
  • N. A. Orr,
  • S. Ota,
  • H. Otsu,
  • T. Ozaki,
  • V. Panin,
  • S. Paschalis,
  • E. C. Pollacco,
  • S. Reichert,
  • J. -Y. Roussé,
  • A. T. Saito,
  • S. Sakaguchi,
  • M. Sako,
  • C. Santamaria,
  • M. Sasano,
  • H. Sato,
  • M. Shikata,
  • Y. Shimizu,
  • Y. Shindo,
  • L. Stuhl,
  • T. Sumikama,
  • M. Tabata,
  • Y. Togano,
  • J. Tsubota,
  • Z. H. Yang,
  • J. Yasuda,
  • K. Yoneda,
  • J. Zenihiro,
  • T. Uesaka

摘要

Universality in physics describes the emergence of common features in vastly different systems. One fascinating example is the Efimov phenomenon where three-body resonantly interacting systems display universal properties. Efimov states have been observed in ultra-cold-atom systems, but their manifestation in nuclei remains elusive due to the long-range repulsive Coulomb interaction and the stringent requirement for at least two s-wave resonances in its subsystems. Recent theories propose another universality in three-body halos with only one s-wave resonance. Here, we report the identification of a precursor of this phenomenon in a neutron-rich 10He nucleus. With higher statistics and better sensitivities than previous experiments, we identify two low-lying 0+ states of 10He at  ~ 1 MeV and  ~ 2 MeV above its two-neutron decay threshold, and determine an s-wave scattering length of  ~ − 3.5 fm between 8He and neutron. It is revealed that the lower energy state, the ground state of 10He, is a three-body state with only s-wave interactions among its subsystems. This state manifests as a resonance structure, which is a direct consequence of a universal long-range three-body repulsion. Our work sheds new light on quantum halos with finite lifetimes, providing a path toward their unified understanding across various scales and fields.