@article{oai:niigata-u.repo.nii.ac.jp:00002112,
 author = {Ishizuka, Jun and Yamada, Takemi and Yanagi, Yuki and Ono, Yoshiaki},
 issue = {11},
 journal = {Journal of the Physical Society of Japan, Journal of the Physical Society of Japan},
 month = {Oct},
 note = {The five-orbital Hubbard model for iron-based superconductors is investigated by using the dynamical mean-field theory combined with the Eliashberg equation to clarify the local correlation effects on the electronic states and the superconductivity. In the specific case where the antiferromagnetic (AMF) and the antiferro-orbital (AFO) fluctuations are comparably enhanced, the orbital dependence of the vertex function becomes significantly large while that of the self-energy is small, in contrast to the AFM fluctuation-dominated case where the vertex function (the self-energy) shows small (large) orbital dependence. The orbital-dependent vertex function together with the nesting between the inner and outer hole Fermi surfaces results in the enhancement of the inter-orbital ferromagnetic (FM) fluctuation in addition to the AFM and AFO fluctuations. In this case, the hole-s_±-wave pairing with the sign change of the two hole Fermi surfaces is mediated by the coexisting three fluctuations as expected to be observed in a specific compound LiFeAs.},
 pages = {114709-1--114709-8},
 title = {Hole-s_± State Induced by Coexisting Ferro- and Aniferromagnetic and Aniferro-orbital Fluctuations in Iron Pnictides},
 volume = {85},
 year = {2016}
}