Spectroscopy of $^{26}$F to probe proton-neutron forces close to the drip line - IN2P3 - Institut national de physique nucléaire et de physique des particules
Journal Articles Physical Review Letters Year : 2013

Spectroscopy of $^{26}$F to probe proton-neutron forces close to the drip line

B. Bastin
L. Gaudefroy
  • Function : Author
S. Grévy
  • Function : Author
M.-G. Porquet
  • Function : Author
D. Sohler

Abstract

A long-lived $J^{\pi}=4_1^+$ isomer, $T_{1/2}=2.2(1)$ms, has been discovered at 643.4(1)~keV in the weakly-bound $^{26}_{\;9}$F nucleus. It was populated at GANIL in the fragmentation of a $^{36}$S beam. It decays by an internal transition to the $J^{\pi}=1_1^+$ ground state (82(14)\%), by $\beta$-decay to $^{26}$Ne, or beta-delayed neutron emission to $^{25}$Ne. From the beta-decay studies of the $J^{\pi}=1_1^+$ and $J^{\pi}=4_1^+$ states, new excited states have been discovered in $^{25,26}$Ne. Gathering the measured binding energies of the $J^{\pi}=1_1^+-4_1^+$ multiplet in $^{26}_{\;9}$F, we find that the proton-neutron $\pi 0d_{5/2} \nu 0d_{3/2}$ effective force used in shell-model calculations should be reduced to properly account for the weak binding of $^{26}_{\;9}$F. Microscopic coupled cluster theory calculations using interactions derived from chiral effective field theory are in very good agreement with the energy of the low-lying $1_1^+,2_1^+,4_1^+$ states in $^{26}$F. Including three-body forces and coupling to the continuum effects improve the agreement between experiment and theory as compared to the use of two-body forces only.
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Dates and versions

in2p3-00780657 , version 1 (24-01-2013)

Identifiers

Cite

A. Lepailleur, O. Sorlin, L. Caceres, B. Bastin, C. Borcea, et al.. Spectroscopy of $^{26}$F to probe proton-neutron forces close to the drip line. Physical Review Letters, 2013, 110, pp.082502. ⟨10.1103/PhysRevLett.110.082502⟩. ⟨in2p3-00780657⟩
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