Your search keyword '"Doncel, Maria"' showing total 2 results

1. Observation of the proton emitter 57116La59.

Author

Zhang, Wei, Cederwall, Bo, Aktas, Özge, Liu, Xiaoyu, Ertoprak, Aysegül, Nyberg, Ayse, Auranen, Kalle, Alayed, Betool, Badran, Hussam, Boston, Helen, Doncel, Maria, Forsberg, Ulrika, Grahn, Tuomas, Greenlees, Paul T., Guo, Song, Heery, Jacob, Hilton, Joshua, Jenkins, David, Julin, Rauno, and Juutinen, Sakari

Subjects

NUCLIDES, NUCLEAR physics, ATOMIC nucleus, QUANTUM tunneling, NEUTRON emission, HEAVY ion fusion reactions, PROTONS

Abstract

The quantum tunneling and emission of a single constituent nucleon provide a beautifully simple and unique window into the complex properties of atomic nuclei at the extreme edge of nuclear existence. In particular, for odd-odd proton emitting nuclides, the associated decay energy and partial half-life can be used to probe the correlations between the valence neutrons and protons which have been theoretically predicted to favour a new type of nuclear superfluidity, isoscalar neutron-proton pairing, for which the experimental "smoking gun" remains elusive. In the present work, proton emission from the lanthanum isotope 57 116 La59, 23 neutrons away from the only stable isotope 57 139 La82, is reported. 116La nuclei were synthesised in the fusion-evaporation reaction 58Ni(64Zn, p5n)116La and identified via their proton radioactivity using the mass spectrometer MARA (Mass Analysing Recoil Apparatus) and the silicon detectors placed at its focal plane. Comparisons of the measured proton energy (Ep = 718 ± 9 keV) and half-life (T1/2 = 50 ± 22 ms) with values calculated using the Universal Decay Law approach indicate that the proton is emitted with an orbital angular momentum l = 2 and that its emission probability is enhanced relative to its closest, less exotic, odd-even lanthanum isotope ( 57 117 La60) while the proton-emission Q-value is lower. We propose this to be a possible signature for the presence of strong neutron-proton pair correlations in this exotic, neutron deficient system. The observations of γ decays from isomeric states in 116La and 117La are also reported. Neutron-proton pairing is a topic of continuous interest in nuclear physics and open questions remain. The authors experimentally observe direct proton decay from the ground state of odd-odd 116La, providing support for the presence of strong neutron-proton pair correlations in this exotic, neutron deficient system. [ABSTRACT FROM AUTHOR]

Published

2022

2. Observation of the proton emitter 57116La59.

Author

Zhang, Wei, Cederwall, Bo, Aktas, Özge, Liu, Xiaoyu, Ertoprak, Aysegül, Nyberg, Ayse, Auranen, Kalle, Alayed, Betool, Badran, Hussam, Boston, Helen, Doncel, Maria, Forsberg, Ulrika, Grahn, Tuomas, Greenlees, Paul T., Guo, Song, Heery, Jacob, Hilton, Joshua, Jenkins, David, Julin, Rauno, and Juutinen, Sakari

Subjects

*NUCLIDES, *NUCLEAR physics, *ATOMIC nucleus, *QUANTUM tunneling, *NEUTRON emission, *HEAVY ion fusion reactions, *PROTONS

Abstract

The quantum tunneling and emission of a single constituent nucleon provide a beautifully simple and unique window into the complex properties of atomic nuclei at the extreme edge of nuclear existence. In particular, for odd-odd proton emitting nuclides, the associated decay energy and partial half-life can be used to probe the correlations between the valence neutrons and protons which have been theoretically predicted to favour a new type of nuclear superfluidity, isoscalar neutron-proton pairing, for which the experimental "smoking gun" remains elusive. In the present work, proton emission from the lanthanum isotope 57 116 La59, 23 neutrons away from the only stable isotope 57 139 La82, is reported. 116La nuclei were synthesised in the fusion-evaporation reaction 58Ni(64Zn, p5n)116La and identified via their proton radioactivity using the mass spectrometer MARA (Mass Analysing Recoil Apparatus) and the silicon detectors placed at its focal plane. Comparisons of the measured proton energy (Ep = 718 ± 9 keV) and half-life (T1/2 = 50 ± 22 ms) with values calculated using the Universal Decay Law approach indicate that the proton is emitted with an orbital angular momentum l = 2 and that its emission probability is enhanced relative to its closest, less exotic, odd-even lanthanum isotope ( 57 117 La60) while the proton-emission Q-value is lower. We propose this to be a possible signature for the presence of strong neutron-proton pair correlations in this exotic, neutron deficient system. The observations of γ decays from isomeric states in 116La and 117La are also reported. Neutron-proton pairing is a topic of continuous interest in nuclear physics and open questions remain. The authors experimentally observe direct proton decay from the ground state of odd-odd 116La, providing support for the presence of strong neutron-proton pair correlations in this exotic, neutron deficient system. [ABSTRACT FROM AUTHOR]

Published

2022