@article{10272/17613,
year = {2020},
month = {1},
url = {http://hdl.handle.net/10272/17613},
abstract = {Spectroscopic factors of neutron-hole and proton-hole states in 131Sn and 131In, respectively, were
measured using one-nucleon removal reactions from doubly-magic 132Sn at relativistic energies. For
131In, a 2910(50)-keV γ ray was observed for the first time and tentatively assigned to a decay
from a 5/2− state at 3275(50) keV to the known 1/2− level at 365 keV. The spectroscopic factors
determined for this new excited state and three other single-hole states provide first evidence for
a strong fragmentation of single-hole strength in 131Sn and 131In. The experimental results are
compared to theoretical calculations based on the relativistic particle-vibration coupling model and
to experimental information for single-hole states in the stable doubly-magic nucleus 208Pb.},
publisher = {American Physical Society},
keywords = {Single-particle strength},
keywords = {Doubly-magic nucleus},
keywords = {0f5/2 proton-hole},
title = {Fragmentation of single-particle strength around the doubly-magic nucleus 132Sn and the position of the 0f5/2 proton-hole state in 131In},
doi = {10.1103/PhysRevLett.124.022501},
author = {Vaquero, V. and Jungclaus, A. and Aumann, T. and Martel Bravo, Ismael},
}