The influence of 2p - 1h configurations on the low-lying states of 51Ti

“…There are two 7/2 − states in 51 Ti at relatively low energies (1437 and 2691 keV). However, both states are seen strongly in the 49 Ti(t,p) reaction [23], which provides convincing evidence that their structure can be described as a pair of p 3/2 neutrons coupled to spin zero coupled to an f 7/2 neutron hole. Furthermore, these states are only weakly populated in the present (d,p) experiment.…”

“…A measurement of the 49 Ti(t, p) 51 Ti reaction could, in principle, conclusively determine whether these states have J π = 5/2 − or 7/2 − . Unfortunately, the study reported in [23] only observed states up to 3.0 MeV. It is clear that this reaction should be revisited, this time with access to higher excitation energies.…”

$^{50}$Ti($d$,$p$)$^{51}$Ti, single neutron energies in the $N=29$ isotones and the $N=32$ subshell closure

“…There are two 7/2 − states in 51 Ti at relatively low energies (1437 and 2691 keV). However, both states are seen strongly in the 49 Ti(t,p) reaction [23], which provides convincing evidence that their structure can be described as a pair of p 3/2 neutrons coupled to spin zero coupled to an f 7/2 neutron hole. Furthermore, these states are only weakly populated in the present (d,p) experiment.…”

“…A measurement of the 49 Ti(t, p) 51 Ti reaction could, in principle, conclusively determine whether these states have J π = 5/2 − or 7/2 − . Unfortunately, the study reported in [23] only observed states up to 3.0 MeV. It is clear that this reaction should be revisited, this time with access to higher excitation energies.…”

$^{50}$Ti($d$,$p$)$^{51}$Ti, single neutron energies in the $N=29$ isotones and the $N=32$ subshell closure

22-Titanium

Excited Nuclear States for Ti-51 (Titanium)