Study of $s$- and $d$-wave intruder strengths in $^{13}{\rm B}_{\rm g.s.}$ via a $p(^{13}{\rm B},d)^{12}{\rm B}$ reaction

Abstract: Experimental results of the p( 13 B, d) 12 B transfer reaction to the low-lying states in 12 B are reported. The optical potential parameters for the entrance channel are extracted from the elastic scattering p( 13 B, p) measured in the same experiment, while those for the exit channel are global ones. Spectroscopic factors associated with the p-, s-, and d-wave neutron transfer to the known 12 B states, are extracted by comparing the deuteron angular distributions with the calculation results. The separated s… Show more

“…The fine pixels of DSSDs provided good two-dimensional position resolutions and the capability to record multihit events in one telescope [40,41]. The inverse kinematics combined with the around zero-degree detection is of high efficiency to measure the particle decay from the near-threshold resonances [17,38,[42][43][44][45][46]. Moreover, the beam particles which did not react with the target were stopped in the first two layers of the T 0 telescope with their energies being measured precisely.…”

Observation of the $π^2σ^2$-bond linear-chain molecular structure in $^{16}$C

“…The fine pixels of DSSDs provided good two-dimensional position resolutions and the capability to record multihit events in one telescope [40,41]. The inverse kinematics combined with the around zero-degree detection is of high efficiency to measure the particle decay from the near-threshold resonances [17,38,[42][43][44][45][46]. Moreover, the beam particles which did not react with the target were stopped in the first two layers of the T 0 telescope with their energies being measured precisely.…”

Observation of the $π^2σ^2$-bond linear-chain molecular structure in $^{16}$C