Evidence for prevalent Z = 6 magic number in neutron-rich carbon isotopes

Magic numbers are associated with the stability of atomic nuclei. Here, the authors analyse the proton radii, binding energies and electric quadrupole transition rates of neutron-rich carbon isotopes at proton number six and use nuclear structure models to support the magic number Z = 6.

Guardado en:
Detalles Bibliográficos
Autores principales: D. T. Tran, H. J. Ong, G. Hagen, T. D. Morris, N. Aoi, T. Suzuki, Y. Kanada-En’yo, L. S. Geng, S. Terashima, I. Tanihata, T. T. Nguyen, Y. Ayyad, P. Y. Chan, M. Fukuda, H. Geissel, M. N. Harakeh, T. Hashimoto, T. H. Hoang, E. Ideguchi, A. Inoue, G. R. Jansen, R. Kanungo, T. Kawabata, L. H. Khiem, W. P. Lin, K. Matsuta, M. Mihara, S. Momota, D. Nagae, N. D. Nguyen, D. Nishimura, T. Otsuka, A. Ozawa, P. P. Ren, H. Sakaguchi, C. Scheidenberger, J. Tanaka, M. Takechi, R. Wada, T. Yamamoto
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2018
Materias:
Q
Acceso en línea:https://doaj.org/article/4625634cc58148eab9f4a77a6b44387c
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:4625634cc58148eab9f4a77a6b44387c
record_format dspace
spelling oai:doaj.org-article:4625634cc58148eab9f4a77a6b44387c2021-12-02T17:31:59ZEvidence for prevalent Z = 6 magic number in neutron-rich carbon isotopes10.1038/s41467-018-04024-y2041-1723https://doaj.org/article/4625634cc58148eab9f4a77a6b44387c2018-04-01T00:00:00Zhttps://doi.org/10.1038/s41467-018-04024-yhttps://doaj.org/toc/2041-1723Magic numbers are associated with the stability of atomic nuclei. Here, the authors analyse the proton radii, binding energies and electric quadrupole transition rates of neutron-rich carbon isotopes at proton number six and use nuclear structure models to support the magic number Z = 6.D. T. TranH. J. OngG. HagenT. D. MorrisN. AoiT. SuzukiY. Kanada-En’yoL. S. GengS. TerashimaI. TanihataT. T. NguyenY. AyyadP. Y. ChanM. FukudaH. GeisselM. N. HarakehT. HashimotoT. H. HoangE. IdeguchiA. InoueG. R. JansenR. KanungoT. KawabataL. H. KhiemW. P. LinK. MatsutaM. MiharaS. MomotaD. NagaeN. D. NguyenD. NishimuraT. OtsukaA. OzawaP. P. RenH. SakaguchiC. ScheidenbergerJ. TanakaM. TakechiR. WadaT. YamamotoNature PortfolioarticleScienceQENNature Communications, Vol 9, Iss 1, Pp 1-7 (2018)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
D. T. Tran
H. J. Ong
G. Hagen
T. D. Morris
N. Aoi
T. Suzuki
Y. Kanada-En’yo
L. S. Geng
S. Terashima
I. Tanihata
T. T. Nguyen
Y. Ayyad
P. Y. Chan
M. Fukuda
H. Geissel
M. N. Harakeh
T. Hashimoto
T. H. Hoang
E. Ideguchi
A. Inoue
G. R. Jansen
R. Kanungo
T. Kawabata
L. H. Khiem
W. P. Lin
K. Matsuta
M. Mihara
S. Momota
D. Nagae
N. D. Nguyen
D. Nishimura
T. Otsuka
A. Ozawa
P. P. Ren
H. Sakaguchi
C. Scheidenberger
J. Tanaka
M. Takechi
R. Wada
T. Yamamoto
Evidence for prevalent Z = 6 magic number in neutron-rich carbon isotopes
description Magic numbers are associated with the stability of atomic nuclei. Here, the authors analyse the proton radii, binding energies and electric quadrupole transition rates of neutron-rich carbon isotopes at proton number six and use nuclear structure models to support the magic number Z = 6.
format article
author D. T. Tran
H. J. Ong
G. Hagen
T. D. Morris
N. Aoi
T. Suzuki
Y. Kanada-En’yo
L. S. Geng
S. Terashima
I. Tanihata
T. T. Nguyen
Y. Ayyad
P. Y. Chan
M. Fukuda
H. Geissel
M. N. Harakeh
T. Hashimoto
T. H. Hoang
E. Ideguchi
A. Inoue
G. R. Jansen
R. Kanungo
T. Kawabata
L. H. Khiem
W. P. Lin
K. Matsuta
M. Mihara
S. Momota
D. Nagae
N. D. Nguyen
D. Nishimura
T. Otsuka
A. Ozawa
P. P. Ren
H. Sakaguchi
C. Scheidenberger
J. Tanaka
M. Takechi
R. Wada
T. Yamamoto
author_facet D. T. Tran
H. J. Ong
G. Hagen
T. D. Morris
N. Aoi
T. Suzuki
Y. Kanada-En’yo
L. S. Geng
S. Terashima
I. Tanihata
T. T. Nguyen
Y. Ayyad
P. Y. Chan
M. Fukuda
H. Geissel
M. N. Harakeh
T. Hashimoto
T. H. Hoang
E. Ideguchi
A. Inoue
G. R. Jansen
R. Kanungo
T. Kawabata
L. H. Khiem
W. P. Lin
K. Matsuta
M. Mihara
S. Momota
D. Nagae
N. D. Nguyen
D. Nishimura
T. Otsuka
A. Ozawa
P. P. Ren
H. Sakaguchi
C. Scheidenberger
J. Tanaka
M. Takechi
R. Wada
T. Yamamoto
author_sort D. T. Tran
title Evidence for prevalent Z = 6 magic number in neutron-rich carbon isotopes
title_short Evidence for prevalent Z = 6 magic number in neutron-rich carbon isotopes
title_full Evidence for prevalent Z = 6 magic number in neutron-rich carbon isotopes
title_fullStr Evidence for prevalent Z = 6 magic number in neutron-rich carbon isotopes
title_full_unstemmed Evidence for prevalent Z = 6 magic number in neutron-rich carbon isotopes
title_sort evidence for prevalent z = 6 magic number in neutron-rich carbon isotopes
publisher Nature Portfolio
publishDate 2018
url https://doaj.org/article/4625634cc58148eab9f4a77a6b44387c
work_keys_str_mv AT dttran evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT hjong evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT ghagen evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT tdmorris evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT naoi evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT tsuzuki evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT ykanadaenyo evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT lsgeng evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT sterashima evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT itanihata evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT ttnguyen evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT yayyad evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT pychan evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT mfukuda evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT hgeissel evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT mnharakeh evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT thashimoto evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT thhoang evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT eideguchi evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT ainoue evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT grjansen evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT rkanungo evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT tkawabata evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT lhkhiem evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT wplin evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT kmatsuta evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT mmihara evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT smomota evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT dnagae evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT ndnguyen evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT dnishimura evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT totsuka evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT aozawa evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT ppren evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT hsakaguchi evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT cscheidenberger evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT jtanaka evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT mtakechi evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT rwada evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
AT tyamamoto evidenceforprevalentz6magicnumberinneutronrichcarbonisotopes
_version_ 1718380426353967104