Effect of magnesium doping on the orbital and magnetic order in LiNiO2

M. Bonda; M. Holzapfel; S. De Brion; C. Darie; T. Feher; P. J. Baker; T. Lancaster; S. J. Blundell; F. L. Pratt

Journal Article

Effect of magnesium doping on the orbital and magnetic order in LiNiO2

Physical Review B - Condensed Matter and Materials Physics (2008) 78(10)

DOI: 10.1103/PhysRevB.78.104409

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Abstract

In LiNiO2, the Ni3+ ions, with S=1/2 and twofold orbital degeneracy, are arranged on a triangular lattice. Using muon-spin relaxation and electron-spin resonance (ESR), we show that magnesium doping does not stabilize any magnetic or orbital order despite the absence of interplane Ni2+. A disordered, slowly fluctuating state develops below 12 K. In addition, we find that magnons are excited on the time scale of the ESR experiment. At the same time, a g factor anisotropy is observed, in agreement with | 3 z2 - r2 orbital occupancy. © 2008 The American Physical Society.

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Bonda, M., Holzapfel, M., De Brion, S., Darie, C., Feher, T., Baker, P. J., … Pratt, F. L. (2008). Effect of magnesium doping on the orbital and magnetic order in LiNiO2. Physical Review B - Condensed Matter and Materials Physics, 78(10). https://doi.org/10.1103/PhysRevB.78.104409

Effect of magnesium doping on the orbital and magnetic order in LiNiO2

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