In-gas-cell laser spectroscopy for magnetic dipole moment of $^{199}$Pt toward $N=$ 126
arXiv:1605.03674 · doi:10.1103/PhysRevC.96.014307
Abstract
Magnetic dipole moment and mean-square charge radius of $^{199}$Pt ($I^Ï=$ 5/2$^-$) have been evaluated for the first time from the investigation of the hyperfine splitting of the $λ_1=$ 248.792 nm transition by in-gas-cell laser ionization spectroscopy. Neutron-rich nucleus $^{199}$Pt was produced by multi-nucleon transfer reaction at the KISS where the nuclear spectroscopy in the vicinity of $N=$ 126 is planed from the aspect of an astrophysical interest as well as the nuclear structure. Measured magnetic dipole moment $+$0.63(13)$μ_{\rm N}$ is consistent with the systematics of those of nuclei with $I^Ï=$ 5/2$^-$. The deformation parameter $|<β_2^2>^{1/2}|$ evaluated from the isotope shift indicates the gradual shape change to spherical shape of platinum isotopes with increasing neutron number toward $N=$ 126.
8 pages, 5 figures