Orbital Dependent Phase Control in Ca2-xSrxRuO4

Abstract

We present first-principles studies on the orbital states of the layered perovskites Ca2-xSrxRuO4. The crossover from antiferromagnetic (AF) Mott insulator for x < 0.2 to nearly ferromagnetic (FM) metal at x=0.5 is characterized by the systematic change of the xy orbital occupation. For the AF side (x < 0.2), we present firm evidence for the xy ferro-orbital ordering. It is found that the degeneracy of t2g (or eg) states is lifted robustly due to the two-dimensional (2D) crystal-structure, even without the Jahn-Teller distortion of RuO6. This effect dominates, and the cooperative occupation of xy orbital is concluded. In contrast to recent proposals, the resulting electronic structure explains well both the observed X-ray absorption spectra and the double peak structure of optical conductivity. For the FM side (x=0.5), however, the xy orbital with half filling opens a pseudo-gap in the FM state and contributes to the spin S=1/2 moment (rather than S=1 for x=0.0 case) dominantly, while yz,zx states are itinerant with very small spin polarization, explaining the recent neutron data consistently.

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