The neutron-rich nuclei near doubly magic132^(Sn)have attracted considerable interest in both nuclear physics and nuclear astrophysics.For the particle-hole nuclei in this region,the low-lying and high core excitations have been well described by shell model calculations using the extended pairing plus multipole-multipole force model.However,there is a significant difference between experiment and theory in the high-spin level 17+of^(132)Te.We intend to illustrate this difference through monopole interactions.For this purpose,the monopole corrections betweenπ(ν)0g_(7/2),ν1d_(5/2)andπ(ν)0h_(11/2)are investigated in^(132-134)Te,^(131-133)Sb,and^(130)Sn.Some theoretical levels are connected to the(17^(+))state of^(132)Te with the monopole correction(Mc)of Mc(νd_(5/2),νh_(11/2))and the quadruple-quadruple force between the proton and neutron,i.e.,levels 3^(-)(8^(-))in^(130)Sn,level 14^(-)in^(132)Te,and level 23/2^(-)in^(131)Sb.Their observations at lower energies can confirm the datum of level(17^(+))in^(132)Te with an illustration of monopole effects and quadruple-quadruple force.
