Orbital-selective magnetism in FeAs-based superconductors

                                                                                                                   Hyoung Joon Choi

  LaFeAsO1-xFx and related compounds show unconventional superconductivity (SC) in the vicinity of the antiferromagnetism (AFM). These compounds are featured with multiple Fermi surfaces with strong orbital characters. We perform first-principles calculations of the electronic and magnetic properties in LnFeAsO (Ln=La, Ce, Pr, Nd, Sm, and Gd) as a function of Fe magnetic moment to study material-dependent interplay between orbitals and magnetic moments. With this approach, we show orbital-selective magnetic phases in small-Fe-moment regime: dxy magnetic phase, which is itinerantly driven by orbital selection of Fermi-surface nesting, and dyz magnetic phase, which is driven by local interactions. The Fe magnetic moments in the two phases show different coupling strengths to Fermi-surface electrons orbital-selectively, suggesting different roles in SC and in AFM, and making orbital characters of the Fe magnetic moment resolvable by measuring the electronic structures. This work was supported by NRF of Korea (Grant No. 2009-0081204 and 2011-0018306). Computational resources have been provided by KISTI Supercomputing Center (Project No. KSC-2008-S02-0004 and KSC-2011-C2-04).

 

Ref.) H. Oh, D. Shin, and H. J. Choi, arXiv:1012.2224 (2010).