The observation of vibrating pear-shapes in radon nuclei

Butler, P. A.; Gaffney, L. P.; Spagnoletti, P.; Konki, J.; Scheck, M.; Smith, J. F.; Abrahams, K.; Bowry, M.; Cederkäll, J.; Chupp, T.; Angelis, G. de; De Witte, H.; Garrett, P. E.; Goldkuhle, A.; Henrich, C.; Illana, A.; Johnston, K.; Joss, D. T.; Keatings, J. M.; Kelly, N. A.; Komorowska, M.; Kröll, T.; Lozano, M.; Singh, B. S. Nara; O’Donnell, D.; Ojala, Joonas; Page, R. D.; Pedersen, L. G.; Raison, C.; Reiter, P.; Rodriguez, J. A.; Rosiak, D.; Rothe, S.; Shneidman, T. M.; Siebeck, B.; Seidlitz, M.; Sinclair, J.; Stryjczyk, M.; Van Duppen, P.; Vinals, S.; Virtanen, Ville; Warr, N.; Wrzosek-Lipska, K.; Zielinska, M.

doi:10.1038/s41467-019-10494-5

dc.contributor.author	Butler, P. A.
dc.contributor.author	Gaffney, L. P.
dc.contributor.author	Spagnoletti, P.
dc.contributor.author	Konki, J.
dc.contributor.author	Scheck, M.
dc.contributor.author	Smith, J. F.
dc.contributor.author	Abrahams, K.
dc.contributor.author	Bowry, M.
dc.contributor.author	Cederkäll, J.
dc.contributor.author	Chupp, T.
dc.contributor.author	Angelis, G. de
dc.contributor.author	De Witte, H.
dc.contributor.author	Garrett, P. E.
dc.contributor.author	Goldkuhle, A.
dc.contributor.author	Henrich, C.
dc.contributor.author	Illana, A.
dc.contributor.author	Johnston, K.
dc.contributor.author	Joss, D. T.
dc.contributor.author	Keatings, J. M.
dc.contributor.author	Kelly, N. A.
dc.contributor.author	Komorowska, M.
dc.contributor.author	Kröll, T.
dc.contributor.author	Lozano, M.
dc.contributor.author	Singh, B. S. Nara
dc.contributor.author	O’Donnell, D.
dc.contributor.author	Ojala, Joonas
dc.contributor.author	Page, R. D.
dc.contributor.author	Pedersen, L. G.
dc.contributor.author	Raison, C.
dc.contributor.author	Reiter, P.
dc.contributor.author	Rodriguez, J. A.
dc.contributor.author	Rosiak, D.
dc.contributor.author	Rothe, S.
dc.contributor.author	Shneidman, T. M.
dc.contributor.author	Siebeck, B.
dc.contributor.author	Seidlitz, M.
dc.contributor.author	Sinclair, J.
dc.contributor.author	Stryjczyk, M.
dc.contributor.author	Van Duppen, P.
dc.contributor.author	Vinals, S.
dc.contributor.author	Virtanen, Ville
dc.contributor.author	Warr, N.
dc.contributor.author	Wrzosek-Lipska, K.
dc.contributor.author	Zielinska, M.
dc.date.accessioned	2019-06-18T11:12:51Z
dc.date.available	2019-06-18T11:12:51Z
dc.date.issued	2019
dc.identifier.citation	Butler, P. A., Gaffney, L. P., Spagnoletti, P., Konki, J., Scheck, M., Smith, J. F., Abrahams, K., Bowry, M., Cederkäll, J., Chupp, T., Angelis, G. D., De Witte, H., Garrett, P. E., Goldkuhle, A., Henrich, C., Illana, A., Johnston, K., Joss, D. T., Keatings, J. M., . . . Zielinska, M. (2019). The observation of vibrating pear-shapes in radon nuclei. <i>Nature Communications</i>, <i>10</i>, Article 2473. <a href="https://doi.org/10.1038/s41467-019-10494-5" target="_blank">https://doi.org/10.1038/s41467-019-10494-5</a>
dc.identifier.other	CONVID_31221079
dc.identifier.other	TUTKAID_81699
dc.identifier.uri	https://jyx.jyu.fi/handle/123456789/64675
dc.description.abstract	There is a large body of evidence that atomic nuclei can undergo octupole distortion and assume the shape of a pear. This phenomenon is important for measurements of electric-dipole moments of atoms, which would indicate CP violation and hence probe physics beyond the Standard Model of particle physics. Isotopes of both radon and radium have been identified as candidates for such measurements. Here, we observed the low-lying quantum states in 224Rn and 226Rn by accelerating beams of these radioactive nuclei. We show that radon isotopes undergo octupole vibrations but do not possess static pear-shapes in their ground states. We conclude that radon atoms provide less favourable conditions for the enhancement of a measurable atomic electric-dipole moment.	fi
dc.format.mimetype	application/pdf
dc.language.iso	eng
dc.publisher	Nature Publishing Group
dc.relation.ispartofseries	Nature Communications
dc.rights	CC BY 4.0
dc.subject.other	exotic nuclei
dc.title	The observation of vibrating pear-shapes in radon nuclei
dc.type	article
dc.identifier.urn	URN:NBN:fi:jyu-201906183264
dc.contributor.laitos	Fysiikan laitos	fi
dc.contributor.laitos	Department of Physics	en
dc.contributor.oppiaine	Kiihdytinlaboratorio	fi
dc.contributor.oppiaine	Accelerator Laboratory	en
dc.type.uri	http://purl.org/eprint/type/JournalArticle
dc.date.updated	2019-06-18T09:15:21Z
dc.type.coar	http://purl.org/coar/resource_type/c_2df8fbb1
dc.description.reviewstatus	peerReviewed
dc.relation.issn	2041-1723
dc.relation.numberinseries	0
dc.relation.volume	10
dc.type.version	publishedVersion
dc.rights.copyright	© The Authors, 2019.
dc.rights.accesslevel	openAccess	fi
dc.relation.grantnumber	654002
dc.relation.grantnumber	654002
dc.relation.projectid	info:eu-repo/grantAgreement/EC/H2020/654002/EU//
dc.subject.yso	ydinfysiikka
dc.subject.yso	radon
dc.format.content	fulltext
jyx.subject.uri	http://www.yso.fi/onto/yso/p14759
jyx.subject.uri	http://www.yso.fi/onto/yso/p6953
dc.rights.url	https://creativecommons.org/licenses/by/4.0/
dc.relation.doi	10.1038/s41467-019-10494-5
dc.relation.funder	Euroopan komissio	fi
dc.relation.funder	European Commission	en
jyx.fundingprogram	Research infrastructures, H2020	fi
jyx.fundingprogram	Research infrastructures, H2020	en
jyx.fundinginformation	We are grateful to Niels Bidault, Eleftherios Fadakis, Erwin Siesling, and Fredrick Wenander who assisted with the preparation of the radioactive beams, and we thank Jacek Dobaczewski for useful discussions. The support of the ISOLDE Collaboration and technical teams is acknowledged. This work was supported by the following Research Councils and Grants: Science and Technology Facilities Council (STFC; UK) grants ST/P004598/1, ST/L005808/1; Federal Ministry of Education and Research (BMBF; Germany) grants 05P18RDCIA, 05P15PKCIA and 05P18PKCIA and the “Verbundprojekt 05P2018”; National Science Centre (Poland) grant 2015/18/M/ST2/00523; European Union’s Horizon 2020 Framework research and innovation programme 654002 (ENSAR2); Marie Skłodowska-Curie COFUND grant (EU-CERN) 665779; Research Foundation Flanders (FWO, Belgium), by GOA/2015/010 (BOF KU Leuven) and the Interuniversity Attraction Poles Programme initiated by the Belgian Science Policy Office (BriX network P7/12); RFBR(Russia) grant 17-52-12015.
dc.type.okm	A1

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Coulomb excitation of pear-shaped nuclei

Butler, Peter; Gaffney, Liam; Spagnoletti, Pietro; Konki, Joonas; Scheck, Marcus; Smith, John; Abrahams, Kenzo; Bowry, Michael; Cederkäll, Joakim; Chupp, Timothy; de Angelis, Giacomo; De Witte, Hilde; Garrett, Paul; Goldkuhle, Alina; Henrich, Corinna; Illana, Andres; Johnston, Karl; Joss, David; Keatings, James; Kelly, Nicola; Komorowska, Michalina; Kröll, Thorsten; Lozano, Miguel; Nara Singh, Bondili; O'Donnell, David; Ojala, Joonas; Page, Robert; Pedersen, Line; Raison, Christopher; Reiter, Peter; Rodriguez, Jose Alberto; Rosiak, Dawid; Rothe, Sebastian; Shneidman, Timur; Siebeck, Burkhard; Seidlitz, Michael; Sinclair, Jacqueline; Stryjczyk, Marek; Van Duppen, Piet; Vinals, Silvia; Virtanen, Ville; Warr, Nigel; Wrzosek-Lipska, Kasia; Zielinska, Magda (EDP Sciences, 2019)

There is a large body of evidence that atomic nuclei can undergo octupole distortion and assume the shape of a pear. This phenomenon is important for measurements of electric-dipole moments of atoms, which would indicate ...
Interweaving of elementary modes of excitation in superfluid nuclei through particle-vibration coupling: Quantitative account of the variety of nuclear structure observables

Idini, Andrea; Potel, G.; Barranco, F.; Vigezzi, E.; Broglia, R. A. (American Physical Society, 2015)

A complete characterization of the structure of nuclei can be obtained by combining information arising from inelastic scattering, Coulomb excitation, and γ -decay, together with one- and two-particle transfer reactions. ...
Do nuclei go pear-shaped? Coulomb excitation of 220Rn and 224Ra at REX-ISOLDE (CERN)

Scheck, M.; Gaffney, L. P.; Butler, P. A.; Hayes, A. B.; Wenander, F.; Albers, M.; Bastin, B.; Bauer, C.; Blazhev, A.; Boenig, S.; Bree, N.; Cederkall, J.; Chupp, T.; Cline, D.; Cocolios, T. E.; Davinson, T.; De Witte, H.; Diriken, J.; Grahn, Tuomas; Herzan, Andrej; Huyse, M.; Jenkins, D. G.; Joss, D. T.; Kesteloot, N.; Konki, Joonas; Kowalczyk, M.; Kroell, Th.; Kwan, E.; Lutter, R.; Moschner, K.; Napiorkowski, P.; Pakarinen, Janne; Pfeiffer, M.; Radeck, D.; Reiter, P.; Reynders, K.; Rigby, S. V.; Robledo, L. M.; Rudigier, M.; Sambi, S.; Seidlitz, M.; Siebeck, B.; Stora, T.; Thoele, P.; Van Duppen, P.; Vermeulen, M. J.; von Schmid, M.; Voulot, D.; Warr, N.; Wimmer, K.; Wrzosek-Lipska, K.; Wu, C. Y.; Zielinska, M. (EDP Sciences, 2015)

The IS475 collaboration conducted Coulomb-excitation experiments with post-accelerated radioactive 220Rn and 224Ra beams at the REX-ISOLDE facility. The beam particles (Ebeam: 2.83 MeV/u) were Coulomb excited using 60Ni, ...
First candidates for γ vibrational bands built on the [505]11/2− neutron orbital in odd-A Dy isotopes

Majola, S. N. T.; Sithole, M. A.; Mdletshe, L.; Hartley, D.; Timár, J.; Nyakó, B. M.; Allmond, J. M.; Bark, R. A.; Beausang, C.; Bianco, L.; Bucher, T. D.; Bvumbi, S. P.; Carpenter, M. P.; Chiara, C. J.; Cooper, N.; Cullen, D. M.; Curien, D.; Dinoko, T. S.; Gall, B. J. P.; Garrett, P. E.; Greenlees, P. T.; Hirvonen, J.; Jakobsson, U.; Jones, P. M.; Julin, R.; Juutinen, S.; Ketelhut, S.; Kheswa, B. V.; Kondev, F. G.; Korichi, A.; Kulp, W. D.; Lauritsen, T.; Lawrie, E. A.; Makhathini, L.; Masiteng, P. L.; Maqabuka, B.; McCutchan, E. A.; Miller, D.; Miller, S.; Minkova, A.; Msebi, L.; Mthembu, S. H.; Ndayishimye, J.; Nieminen, P.; Ngcobo, P. Z.; Ntshangase, S. S.; Orce, J. N.; Peura, P.; Rahkila, P.; Redon, N.; Riedinger, L. L.; Riley, M. A.; Roux, D. G.; Ruotsalainen, P.; Piot, J.; Saren, J.; Sharpey-Schafer, J. F.; Scholey, C.; Shirinda, O.; Simpson, J.; Sorri, J.; Stefanescu, I.; Stolze, S.; Uusitalo, J.; Wang, X.; Werner, V.; Wood, J. L.; Yu, C.-H.; Zhu, S.; Zimba, G. (American Physical Society, 2020)

Rotational structures have been measured using the Jurogam II and GAMMASPHERE arrays at low spin following the 155Gd(α,2n)157Dy and 148Nd(12C,5n)155Dy reactions at 25 and 65 MeV, respectively. We report high-K bands, which ...
β and γ bands in N = 88, 90, and 92 isotones investigated with a five-dimensional collective Hamiltonian based on covariant density functional theory : Vibrations, shape coexistence, and superdeformation

Majola, S. N. T.; Shi, Z.; Song, B. Y.; Li, Z. P.; Zhang, S. Q.; Bark, R. A.; Sharpey-Schafer, J. F.; Aschman, D. G.; Bvumbi, S. P.; Bucher, T. D.; Cullen, D. M.; Dinoko, T. S.; Easton, J. E.; Erasmus, N.; Greenlees, P. T.; Hartley, D. J.; Hirvonen, J.; Korichi, A.; Jakobsson, U.; Jones, P.; Jongile, S.; Julin, R.; Juutinen, S.; Ketelhut, S.; Kheswa, B. V.; Khumalo, N. A.; Lawrie, E. A.; Lawrie, J. J.; Lindsay, R.; Madiba, T. E.; Makhathini, L.; Maliage, S. M.; Maqabuka, B.; Malatji, K. L.; Masiteng, P. L.; Mashita, P. I.; Mdletshe, L.; Minkova, A.; Msebi, L.; Mullins, S. M.; Ndayishimye, J.; Negi, D.; Netshiya, A.; Newman, R.; Ntshangase, S. S.; Ntshodu, R.; Nyakó, B. M.; Papka, P.; Peura, P.; Rahkila, P.; Riedinger, L. L.; Riley, M. A.; Roux, D. G.; Ruotsalainen, P.; Saren, J. J.; Scholey, C.; Shirinda, O.; Sithole, M. A.; Sorri, J.; Stankiewicz, M.; Stolze, S.; Timár, J.; Uusitalo, J.; Vymers, P. A.; Wiedeking, M.; Zimba, G. L. (American Physical Society, 2019)

A comprehensive systematic study is made for the collective β and γ bands in even-even isotopes with neutron numbers N=88 to 92 and proton numbers Z=62(Sm) to 70 (Yb). Data, including excitation energies, B(E0) and B(E2) ...

The observation of vibrating pear-shapes in radon nuclei

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Samankaltainen aineisto

Coulomb excitation of pear-shaped nuclei ﻿

Interweaving of elementary modes of excitation in superfluid nuclei through particle-vibration coupling: Quantitative account of the variety of nuclear structure observables ﻿

Do nuclei go pear-shaped? Coulomb excitation of 220Rn and 224Ra at REX-ISOLDE (CERN) ﻿

First candidates for γ vibrational bands built on the [505]11/2− neutron orbital in odd-A Dy isotopes ﻿

β and γ bands in N = 88, 90, and 92 isotones investigated with a five-dimensional collective Hamiltonian based on covariant density functional theory : Vibrations, shape coexistence, and superdeformation ﻿

Coulomb excitation of pear-shaped nuclei

Interweaving of elementary modes of excitation in superfluid nuclei through particle-vibration coupling: Quantitative account of the variety of nuclear structure observables

Do nuclei go pear-shaped? Coulomb excitation of 220Rn and 224Ra at REX-ISOLDE (CERN)

First candidates for γ vibrational bands built on the [505]11/2− neutron orbital in odd-A Dy isotopes

β and γ bands in N = 88, 90, and 92 isotones investigated with a five-dimensional collective Hamiltonian based on covariant density functional theory : Vibrations, shape coexistence, and superdeformation