Carrier localization and electronic phase separation in a doped spin-orbit-driven Mott phase in Sr₃(Ir(1-x)Ru(x))₂O₇.

@article{Dhital2014CarrierLA,
  title={Carrier localization and electronic phase separation in a doped spin-orbit-driven Mott phase in Sr₃(Ir(1-x)Ru(x))₂O₇.},
  author={Chetan Dhital and Tom Hogan and Wenwen Zhou and Xiang Chen and Zhensong Ren and Mani Pokharel and Yoshinori Okada and Martin Heine and Wei Tian and Zain H. Yamani and Cyril P. Opeil and Joel S. Helton and Jeffrey W Lynn and Ziqiang Wang and Vidya Madhavan and Stephen D Wilson},
  journal={Nature communications},
  year={2014},
  volume={5},
  pages={
          3377
        }
}
  • Chetan Dhital, Tom Hogan, +13 authors Stephen D Wilson
  • Published 2014
  • Medicine, Physics, Biology
  • Nature communications
  • Interest in many strongly spin-orbit-coupled 5d-transition metal oxide insulators stems from mapping their electronic structures to a J(eff)=1/2 Mott phase. One of the hopes is to establish their Mott parent states and explore these systems' potential of realizing novel electronic states upon carrier doping. However, once doped, little is understood regarding the role of their reduced Coulomb interaction U relative to their strongly correlated 3d-electron cousins. Here we show that, upon hole… CONTINUE READING

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