Start Over

Halo Structure of the Neutron-Dripline Nucleus B19

Authors :: K. J. Cook
T. Kobayashi
S. K. Kim
H. Baba
T. Motobayashi
T. Murakami
S. Leblond
Takashi Nakamura
Yosuke Kondo
Hiroyuki Takeda
Ryuki Tanaka
Julien Gibelin
Noritsugu Nakatsuka
Hideaki Otsu
D. Kameda
K. Yoneda
Satoshi Takeuchi
Toshiyuki Kubo
Y. Satou
Kazuyuki Ogata
T. Isobe
Thomas Aumann
N. L. Achouri
Atsumi Saito
Nagao Kobayashi
T. Nakashima
S. Nishi
J. Lee
D. Kanno
Kouichi Hagino
S. Ogoshi
Q. Deshayes
K. Takahashi
Yohei Shimizu
Yasuhiro Togano
Daichi Murai
A. G. Tuff
K. Muto
H. Suzuki
Marine Vandebrouck
Franck Delaunay
F. M. Marqués
H. Sato
P. Doornenbal
Jongwon Hwang
A. Navin
Naoki Fukuda
N. A. Orr
J. Tsubota
Naohito Inabe
R. Minakata
Source :: Physical Review Letters. 124
Publication Year :: 2020
Publisher :: American Physical Society (APS), 2020.
Abstract: The heaviest bound isotope of boron ^{19}B has been investigated using exclusive measurements of its Coulomb dissociation, into ^{17}B and two neutrons, in collisions with Pb at 220 MeV/nucleon. Enhanced electric dipole (E1) strength is observed just above the two-neutron decay threshold with an integrated E1 strength of B(E1)=1.64±0.06(stat)±0.12(sys) e^{2} fm^{2} for relative energies below 6 MeV. This feature, known as a soft E1 excitation, provides the first firm evidence that ^{19}B has a prominent two-neutron halo. Three-body calculations that reproduce the energy spectrum indicate that the valence neutrons have a significant s-wave configuration and exhibit a dineutronlike correlation.