Wednesday, February 13, 2013

1302.2685 (Yu Hasegawa et al.)

Key role of hybridization between actinide 5f and oxygen 2p orbitals for
electronic structure of actinide dioxides
   [PDF]

Yu Hasegawa, Takahiro Maehira, Takashi Hotta
In order to promote our understanding on electronic structure of actinide dioxides, we construct a tight-binding model composed of actinide $5f$ and oxygen $2p$ electrons, which is called $f$-$p$ model. After the diagonalization of the $f$-$p$ model, we compare the eigenenergies in the first Brillouin zone with the results of relativistic band-structure calculations. Here we emphasize a key role of $f$-$p$ hybridization in order to understand the electronic structure of actinide dioxides. In particular, it is found that the position of energy levels of $\Gamma_7$ and $\Gamma_8$ states determined from crystalline electric field potentials depends on the $f$-$p$ hybridization. We clarify the condition on the $f$-$p$ hybridization to explain the electronic structure which is consistent with the local crystalline electric field state. We briefly discuss the region of the absolute values of the Slater-Koster integrals for $f$-$p$ hybridization concerning the appearance of octupole ordering in NpO$_2$.
View original: http://arxiv.org/abs/1302.2685

No comments:

Post a Comment