Taylor MJ, Cullen DM, Procter MG, Bäck T, Cederwall B, Doncel M, Braunroth T, Dewald A, Pakarinen J, Grahn T, et al. Competing single-particle and collective states in the low-energy structure of $^113$I. Phys. Rev. C [Internet]. 2013;88:054307.
访问链接 Liu SH, Hamilton JH, Ramayya AV, Zhu SJ, Shi Y, Xu FR, Batchelder JC, Brewer NT, Hwang JK, Luo YX, et al. New high-spin level scheme of neutron-rich $^112$Rh. Phys. Rev. C [Internet]. 2013;87:057302.
访问链接 Xu C, Hua H, Li XQ, Zhang SQ, Meng J, Li ZH, Xu FR, Cheng YY, He C, Sun JJ, et al. Spectroscopy of $^157$Yb and structure evolutions in odd-$A$ Yb isotopes. Phys. Rev. C [Internet]. 2013;87:034325.
访问链接 Dracoulis GD, Lane GJ, Watanabe H, Hughes RO, Palalani N, Kondev FG, Carpenter MP, Janssens RVF, Lauritsen T, Lister CJ, et al. Three-quasiparticle isomers and possible deformation in the transitional nuclide, $^\mathbf195$Au. Phys. Rev. C [Internet]. 2013;87:014326.
访问链接 Fu XM, Xu FR, Pei JC, Jiao CF, Shi Y, Zhang ZH, Lei YA.
Configuration-constrained total Routhian surfaces with particle-number-conserving pairing. Phys. Rev. C [Internet]. 2013;87:044319.
访问链接 Liu HL, Xu FR.
Calculations of electric quadrupole moments and charge radii for high-K isomers. Science China Physics, Mechanics and Astronomy [Internet]. 2013;56:2037-2041.
访问链接 Luo YX, Rasmussen JO, Hamilton JH, Ramayya AV, Frauendorf S, Hwang JK, Stone NJ, Zhu SJ, Brewer NT, Wang E, et al. New insights into the nuclear structure in neutron-rich 112,114,115,116,117,118Pd. Nuclear Physics A [Internet]. 2013;919:67 - 98.
访问链接 Dracoulis GD, Lane GJ, Byrne AP, Watanabe H, Hughes RO, Kondev FG, Carpenter M, Janssens RVF, Lauritsen T, Lister CJ, et al. Isomers and excitation modes in the gamma-soft nucleus 192Os. Physics Letters B [Internet]. 2013;720:330 - 335.
访问链接AbstractNew spectroscopic results for high-spin states in 192Os populated in deep-inelastic reactions include the identification of a 2-ns, 12+ isomeric state at 2865 keV and a 295-ns, 20+ state at 4580 keV and their associated ¶§ J = 2 sequences. The structures are interpreted as manifestations of maximal rotation alignment within the neutron i 13 / 2 and proton h 11 / 2 shells at oblate deformation. Rotational band members based on the long-lived, K ¶– = 10 ? isomer are also identified for the first time. Configuration-constrained, potential-energy-surface calculations predict that other prolate multi-quasiparticle high-K states should exist at low energy.