The electronic spectroscopy of H2X (X=O, Te, Po) was investigated by means of spinorbit configuration interaction (EPCISO) and restricted active space state interaction (SORASSI). The transition energies to the ...The electronic spectroscopy of H2X (X=O, Te, Po) was investigated by means of spinorbit configuration interaction (EPCISO) and restricted active space state interaction (SORASSI). The transition energies to the low-lying singlet and triplet states of H2O, in which the SO interaction is zero, compare rather well with the experimental data as well as to other theoretical values. The theoretical electronic absorption spectrum is characterized by three allowed transitions A^1B1 (2px(O)→σ^*g/3s(O)), B^1A1(σg→σ^*g/3s(O)) and A^1S2(σg→σ^*u) calculated at 7.68, 9.94, and 11.72 eV, respectively. The theoretical absorption spectra of H2X (X=Te, Po) are shifted to the red with the A^1B1 (npx(X)→σ^*g) states calculated at 5.06 eV (H2Te) and 4.40 eV (H2Po) and the A^1B2 (σg→σ^*u) states calculated at 7.89 eV (H2Te) and 7.77 eV (H2Po). The largest SO splitting amounts to 0.34 eV and is found for the lowest a^3A1 of H2Po. In H2Te the SO effects are still negligible with a maximum splitting of 0.04 eV for the lowest a^3B2. The two methods lead to comparable results but the EPCISO approach depends strongly on the reference wavefunction.展开更多
In the framework of the Skyrme-Hartree-Fock approach with 36 sets of the TI J parameterizations,the tensor force effect on the evolution of the single-proton states in the calcium isotopes is systematically investigat...In the framework of the Skyrme-Hartree-Fock approach with 36 sets of the TI J parameterizations,the tensor force effect on the evolution of the single-proton states in the calcium isotopes is systematically investigated.It is shown that the single-proton states with higher angular momenta are influenced significantly by the tensor force and the trend in the evolution of somesingle-particle energy differences with the mass number of the isotopes depends sensitively on a parameter βT associated with the intensity of the tensor force.To understand this phenomenon,we analyze the spin-orbit potentials and the radial wave functions of relevant single-proton orbits in detail.In addition,it is found that some TI J interactions could cause the 2s1/21d3/2 energy level inversion in 48Ca.展开更多
文摘The electronic spectroscopy of H2X (X=O, Te, Po) was investigated by means of spinorbit configuration interaction (EPCISO) and restricted active space state interaction (SORASSI). The transition energies to the low-lying singlet and triplet states of H2O, in which the SO interaction is zero, compare rather well with the experimental data as well as to other theoretical values. The theoretical electronic absorption spectrum is characterized by three allowed transitions A^1B1 (2px(O)→σ^*g/3s(O)), B^1A1(σg→σ^*g/3s(O)) and A^1S2(σg→σ^*u) calculated at 7.68, 9.94, and 11.72 eV, respectively. The theoretical absorption spectra of H2X (X=Te, Po) are shifted to the red with the A^1B1 (npx(X)→σ^*g) states calculated at 5.06 eV (H2Te) and 4.40 eV (H2Po) and the A^1B2 (σg→σ^*u) states calculated at 7.89 eV (H2Te) and 7.77 eV (H2Po). The largest SO splitting amounts to 0.34 eV and is found for the lowest a^3A1 of H2Po. In H2Te the SO effects are still negligible with a maximum splitting of 0.04 eV for the lowest a^3B2. The two methods lead to comparable results but the EPCISO approach depends strongly on the reference wavefunction.
基金supported by the National Natural Science Foundation of China (Grant Nos.10975190,11275271 and 11075213)the Funds for Creative Research Groups of China (Grant No.11021504)+2 种基金the Doctoral Funds of Guizhou Normal College (Grant No.12BS020)the Natural Science Foundation of Guizhou Province of China (Grant No.2013GZ62432)the Natural Science Foundation of Hebei Province of China (Grant No.2012210043)
文摘In the framework of the Skyrme-Hartree-Fock approach with 36 sets of the TI J parameterizations,the tensor force effect on the evolution of the single-proton states in the calcium isotopes is systematically investigated.It is shown that the single-proton states with higher angular momenta are influenced significantly by the tensor force and the trend in the evolution of somesingle-particle energy differences with the mass number of the isotopes depends sensitively on a parameter βT associated with the intensity of the tensor force.To understand this phenomenon,we analyze the spin-orbit potentials and the radial wave functions of relevant single-proton orbits in detail.In addition,it is found that some TI J interactions could cause the 2s1/21d3/2 energy level inversion in 48Ca.