SHEN SHUI-FA, Huang Y-W, ZHENG SHI-JIE, Fu-Rong, Xu.
Rotational to vibrational evolution in some rotational-like nuclei. Chinese Physics C. 2008;32:146.
Shuifa S, Yan L, Jiahui G, Furong X, Tingdun W, Yibao L, Yang, Yaxin.
New levels and transitions in (72)Ge observed in the (72)As(beta(+)+EC)(72)Ge decay. International Journal of Modern Physics E-Nuclear Physics. 2008;17:1061.
C. Q, Z. DR, Y. G, C. PJ, Y. ZJ.
Proton Resonance properties in light nuclei with mean-field type potentials. International Journal of Modern Physics E-Nuclear Physics. 2008;17:1955.
Xing YB, Zhou XH, Zhang Y, Guo YX, Ma L, Lei XG, Guo WT, M. O, Y. T.
High-spin structure in (187)Pt. Science in China Series G-Physics Mechanics & Astronomy. 2008;51:1053.
Ye Y-L, Zhou X-H, Liu W-P, Ma Y-G, Zhang Y-H, Fu-Rong, Xu.
Outline of the progress in the study of radioactive nuclear physics and super-heavy nuclei. Chinese Physics C. 2008;32:1.
Jian-Fa G, Hua G, Xi-Guo L, Yu-Xin L, Fu-Rong X.
Deconfinement Phase Transition Including Perturbative QCD Corrections in (Proto)neutron Star Matter. Communications in Theoretical Physics [Internet]. 2008;49:461.
访问链接AbstractDeconfinement phase transition and neutrino trapping in (proto)neutron star matter are investigated in a chiral hadronic model (also referred to as the FST model) for the hadronic phase (HP) and in the color-flavor-locked (CFL) quark model for the deconfined quark phase. We include a perturbative QCD correction parameter ¶¡ s in the CFL quark matter equation of states. It is shown that the CFL quark core with K 0 condensation forms in neutron star matter with the large value of ¶¡ s . If the small value of ¶¡ s is taken, hyperons suppress the CFL quark phase and the HP is dominant in the high-density region of (proto)neutron star matter. Neutrino trapping makes the fraction of the CFL quark matter decrease compared with those without neutrino trapping. Moreover, increasing the QCD correction parameter ¶¡ s or decreasing the bag constant B and the strange quark mass m s can make the fraction of the CFL quark matter increase, simultaneously, the fraction of neutrino in protoneutron star matter increases, too. The maximum masses and the corresponding radii of (proto)neutron stars are not sensitive to the QCD correction parameter ¶¡ s .
Fantuzi M, Petrache CM, Mengoni D, Axiotis M, Bazzacco D, Benzoni G, Bizzeti PG, Bizzeti-Sona AM, Blasi N, Bracco A, et al. Nuclear spectroscopy near the proton drip line in the lanthanide region: The122La nucleus. The European Physical Journal A [Internet]. 2008;38:43-51.
访问链接 Garnsworthy AB, Regan PH, C®¢ceres L, Pietri S, Sun Y, Rudolph D, G®Ærska M, Podoly®¢k Z, Steer SJ, Hoischen R, et al. Neutron®Cproton pairing competition in nuclei: Metastable state decays in the proton dripline nuclei 8241Nb and 8643Tc. Physics Letters B [Internet]. 2008;660:326 - 330.
访问链接AbstractThe low-lying structures of the self-conjugate ( N = Z ) nuclei 8241Nb41 and 8643Tc43 have been investigated using isomeric-decay spectroscopy following the projectile fragmentation of a 107Ag beam. These represent the heaviest odd®Codd N = Z nuclei in which internal decays have been identified to date. The resulting level schemes shed light on the shape evolution along the N = Z line between the doubly-magic systems 5628Ni and 10050Sn and support a preference for T = 1 states in T z = 0 odd®Codd nuclei at low excitation energies associated with a T = 1 neutron®Cproton pairing gap. Comparison with Projected Shell Model calculations suggests that the decay in 82Nb may be interpreted as an isospin-changing K isomer.
Garnsworthy AB, Regan PH, C®¢ceres L, Pietri S, Sun Y, Rudolph D, G®Ærska M, Podoly®¢k Z, Steer SJ, Hoischen R, et al. Erratum to: °∞Neutron®Cproton pairing competition in nuclei: Metastable state decays in the proton dripline nuclei 8241Nb and 8643Tc°± [Phys. Lett. B 660 (2008) 326]. Physics Letters B [Internet]. 2008;668:460 -.
访问链接 Hong-Liang L, Fu-Rong X.
Triaxiality of High- K Isomers in A 130 Region. Chinese Physics Letters [Internet]. 2008;25:1621.
访问链接AbstractRemarkable triaxiality is found in the high-K isomeric states of A 130 nuclei using the configuration-constrained calculations of potential-energy surfaces. The triaxiality gives the further understanding of the decay properties of the isomers. The calculation with triaxiality can well explain the measured quadrupole moment of the K ¶– = 7 Å6”1 isomer in 130 Ce.