Orateur
Grigory Rogachev
(Texas A&M University)
Description
$^{13}$Be is the first neutron-unbound isotope of beryllium on the neutron-rich side. Its structure has been the subject of many experimental and theoretical studies with often conflicting results. Even the spin-parity of the ground state is still uncertain. We performed an experiment in which the T=5/2 states in $^{13}$B, the isobaric analogs of $^{13}$Be, were populated in $^{12}$Be+p resonance elastic scattering. The experiment was performed at TRIUMF using Texas Active Target (TexAT). New constraints on the structure of low-lying resonances in $^{13}$Be will be discussed.
Author
Grigory Rogachev
(Texas A&M University)
Co-auteurs
Curtis Hunt
(Texas A&M Cyclotron Institute)
Dr
Jack Bishop
(Cyclotron Institute, Texas A&M University)
