S. A. Kuvin scite author profile

We report the first observation of the 108 Xe → 104 Te → 100 Sn α-decay chain. The α emitters, 108 Xe [Eα = 4.4(2) MeV, T1 /2 = 58 +106 −23 µs] and 104 Te [Eα = 4.9(2) MeV, T1 /2 <18 ns], decaying into doubly magic 100 Sn were produced using a fusion-evaporation reaction 54 Fe(58 Ni,4n) 108 Xe, and identified with a recoil mass separator and an implantation-decay correlation technique. This is the first time α radioactivity has been observed to a heavy self-conjugate nucleus. A previous benchmark for study of this fundamental decay mode has been the decay of 212 Po into doubly magic 208 Pb. Enhanced proton-neutron interactions in the N = Z parent nuclei may result in superallowed α decays with reduced α-decay widths significantly greater than that for 212 Po. From the decay chain, we deduce that the α-reduced width for 108 Xe or 104 Te is more than a factor of 5 larger than that for 212 Po.

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First Observation of Unbound O11 , the Mirror of the Halo Nucleus Li
Webb¹,
Wang²,
Brown³
et al. 2019
Phys. Rev. Lett.
46
5
39
0
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The structure of the extremely proton-rich nucleus 11 8 O3, the mirror of the two-neutron halo nucleus 11 3 Li8, has been studied experimentally for the first time. Following two-neutron knockout reactions with a 13 O beam, the 11 O decay products were detected after two-proton emission and used to construct an invariant-mass spectrum. A broad peak of width ∼3 MeV was observed. Within the Gamow coupled-channel approach, it was concluded that this peak is a multiplet with contributions from the four-lowest 11 O resonant states: J π =3/2 − 1 , 3/2 − 2 , 5/2 + 1 , and 5/2 + 2. The widths and configurations of these states show strong, non-monotonic dependencies on the depth of the p-9 C potential. This unusual behavior is due to the presence of a broad threshold resonant state in 10 N, which is an analog of the virtual state in 10 Li in the presence of the Coulomb potential. After optimizing the model to the data, only a moderate isospin asymmetry between ground states of 11 O and 11 Li was found.

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Particle decays of levels in N11,12 and O12 investigated with the

Webb¹,

Charity²,

Elson³

et al. 2019

Phys. Rev. C

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Particle-decaying states of the light nuclei 11,12 N and 12 O were studied using the invariant-mass method. The decay energies and intrinsic widths of a number of states were measured, and the momentum correlations of three-body decaying states were considered. A second 2p-decaying 2 + state of 12 O was observed for the first time, and a higher energy 12 O state was observed in the 4p+2α decay channel. This 4p+2α channel also contains contributions from fission-like decay paths, including 6 Beg.s.+ 6 Beg.s.. Analogs to these states in 12 O were found in 12 N in the 2p+ 10 B and 2p+α+ 6 Li channels. The momentum correlations for the prompt 2p decay of 12 Og.s. were found to be nearly identical to those of 16 Neg.s., and the correlations for the new 2 + state were found to be consistent with sequential decay through excited states in 11 N. The momentum correlations for the 2 + 1 state in 12 O provide a new value for the 11 N ground-state energy. The states in 12 N/ 12 O that belong to the A=12 isobaric sextet do not deviate from the quadratic isobaric multiplet mass equation (IMME) form.

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S. A. Kuvin

Reaction rate for carbon burning in massive stars

Superallowed α Decay to Doubly Magic Sn100

First Observation of Unbound O11 , the Mirror of the Halo Nucleus Li
Webb¹,
Wang²,
Brown³
et al. 2019
Phys. Rev. Lett.
46
5
39
0
View full text Add to dashboard Cite

Particle decays of levels in N11,12 and O12 investigated with the

Contact Info

Product

Resources

About

S. A. Kuvin

Reaction rate for carbon burning in massive stars

Superallowed α Decay to Doubly Magic Sn100

First Observation of Unbound O11 , the Mirror of the Halo Nucleus LiWebb1, Wang2, Brown3 et al. 2019Phys. Rev. Lett.465390View full textAdd to dashboardCite

Particle decays of levels in N11,12 and O12 investigated with the

Contact Info

Product

Resources

About

First Observation of Unbound O11 , the Mirror of the Halo Nucleus Li
Webb¹,
Wang²,
Brown³
et al. 2019
Phys. Rev. Lett.
46
5
39
0
View full text Add to dashboard Cite