Characterization of the shape-staggering effect in mercury nuclei

Marsh, B. A.; Goodacre, T. Day; Sels, S.; Tsunoda, Y.; Andel, B.; Andreyev, A. N.; Althubiti, N. A.; Atanasov, Dinko; Barzakh, A. E.; Billowes, J.; Blaum, Klaus; Cocolios, T. E.; Cubiss, J. G.; Dobaczewski, J.; Farooq-Smith, G. J.; Fedorov, D. V.; Fedosseev, V. N.; Flanagan, K. T.; Gaffney, L. P.; Ghys, L.; Huyse, M.; Kreim, Susanne Waltraud; Lunney, D.; Lynch, K. M.; Manea, Vladimir; Palenzuela, Y. Martinez; Molkanov, P. L.; Otsuka, T.; Pastore, A.; Rosenbusch, M.; Rossel, R. E.; Rothe, S.; Schweikhard, L.; Seliverstov, M. D.; Spagnoletti, P.; Beveren, C. Van; Duppen, P. Van; Veinhard, M.; Verstraelen, E.; Welker, A.; Wendt, K.; Wienholtz, F.; Wolf, Robert; Zadvornaya, A.; Zuber, K.

doi:10.1038/s41567-018-0292-8

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Characterization of the shape-staggering effect in mercury nuclei

Marsh, B. A., Goodacre, T. D., Sels, S., Tsunoda, Y., Andel, B., Andreyev, A. N., et al. (2018). Characterization of the shape-staggering effect in mercury nuclei. Nature Physics, 14, 1163-1167. doi:10.1038/s41567-018-0292-8.

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Item Permalink: https://hdl.handle.net/21.11116/0000-0003-276B-A Version Permalink: https://hdl.handle.net/21.11116/0000-0003-276C-9

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https://www.nature.com/articles/s41567-018-0292-8#Abs1 (Publisher version) Open Access status unknown

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Marsh, B. A.¹, Author
Goodacre, T. Day¹, Author
Sels, S.¹, Author
Tsunoda, Y.¹, Author
Andel, B.¹, Author
Andreyev, A. N.¹, Author
Althubiti, N. A.¹, Author
Atanasov, Dinko², Author
Barzakh, A. E.¹, Author
Billowes, J.¹, Author
Blaum, Klaus², Author
Cocolios, T. E.¹, Author
Cubiss, J. G.¹, Author
Dobaczewski, J.¹, Author
Farooq-Smith, G. J.¹, Author
Fedorov, D. V.¹, Author
Fedosseev, V. N.¹, Author
Flanagan, K. T.¹, Author
Gaffney, L. P.¹, Author
Ghys, L.¹, Author
Huyse, M.¹, AuthorKreim, Susanne Waltraud², Author         Lunney, D.¹, AuthorLynch, K. M.¹, AuthorManea, Vladimir², Author         Palenzuela, Y. Martinez¹, AuthorMolkanov, P. L.¹, AuthorOtsuka, T.¹, AuthorPastore, A.¹, AuthorRosenbusch, M.¹, AuthorRossel, R. E.¹, AuthorRothe, S.¹, AuthorSchweikhard, L.¹, AuthorSeliverstov, M. D.¹, AuthorSpagnoletti, P.¹, AuthorBeveren, C. Van¹, AuthorDuppen, P. Van¹, AuthorVeinhard, M.¹, AuthorVerstraelen, E.¹, AuthorWelker, A.¹, AuthorWendt, K.¹, AuthorWienholtz, F.¹, AuthorWolf, Robert², Author         Zadvornaya, A.¹, AuthorZuber, K.¹, Author more..

Affiliations:
1CERN, Geneva, Switzerland. School of Physics & Astronomy, The University of Manchester, Manchester, UK. KU Leuven, Instituut voor Kern- en Stralingsfysica, Leuven, Belgium. Center for Nuclear Study, University of Tokyo, Tokyo, Japan. Department of Nuclear Physics and Biophysics, Comenius University in Bratislava, Bratislava, Slovakia. Department of Physics, University of York, York, UK. Advanced Science Research Center, Japan Atomic Energy Agency (JAEA), Tokai-mura, Japan. Petersburg Nuclear Physics Institute (PNPI), NRC Kurchatov Institute, Gatchina, Russian Federation. School of Engineering & Computing, University of the West of Scotland, Paisley, UK. CSNSM-IN2P3- CNRS, Universite Paris-Sud, Orsay, France. Department of Physics, University of Tokyo, Tokyo, Japan. RIKEN Nishina Center, Wako, Japan. National Superconducting Cyclotron Laboratory, Michigan State University, East Lansing, MI, USA. Institut für Physik, Universität Greifswald, Greifswald, Germany. Technische Universität Dresden, Dresden, Germany. Johannes Gutenberg Universität, Mainz, Germany, ou_persistent22
2Division Prof. Dr. Klaus Blaum, MPI for Nuclear Physics, Max Planck Society, ou_904548

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MPINP: Präzisionsexperimente - Abteilung Blaum

Abstract: In rare cases, the removal of a single proton (Z) or neutron (N) from an atomic nucleus leads to a dramatic shape change. These instances are crucial for understanding the components of the nuclear interactions that drive deformation. The mercury isotopes (Z = 80) are a striking example: their close neighbours, the lead isotopes (Z = 82), are spherical and steadily shrink with decreasing N. The even-mass (A = N + Z) mercury isotopes follow this trend. The odd-mass mercury isotopes ^181,183,185Hg, however, exhibit noticeably larger charge radii. Due to the experimental difficulties of probing extremely neutron-deficient systems, and the computational complexity of modelling such heavy nuclides, the microscopic origin of this unique shape staggering has remained unclear. Here, by applying resonance ionization spectroscopy, mass spectrometry and nuclear spectroscopy as far as ¹⁷⁷Hg, we determine ¹⁸¹Hg as the shape-staggering endpoint. By combining our experimental measurements with Monte Carlo shell model calculations, we conclude that this phenomenon results from the interplay between monopole and quadrupole interactions driving a quantum phase transition, for which we identify the participating orbitals. Although shape staggering in the mercury isotopes is a unique and localized feature in the nuclear chart, it nicely illustrates the concurrence of single-particle and collective degrees of freedom at play in atomic nuclei.

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Language(s): eng - English

Dates: Published Online: 2018-10-01

Publication Status: Published online

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Rev. Type: Peer

Identifiers: DOI: 10.1038/s41567-018-0292-8

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Title: Nature Physics

Other : Nat. Phys.

Source Genre: Journal

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Publ. Info: London : Nature Pub. Group

Pages: - Volume / Issue: 14 Sequence Number: - Start / End Page: 1163 - 1167 Identifier: ISSN: 1745-2473
CoNE: https://pure.mpg.de/cone/journals/resource/1000000000025850