English

Kitaev Materials

Strongly Correlated Electrons 2017-01-26 v1

Abstract

In transition-metal compounds with partially filled 4d4d and 5d5d shells spin-orbit entanglement, electronic correlations, and crystal-field effects conspire to give rise to a variety of novel forms of topological quantum matter. This includes Kitaev materials -- a family of spin-orbit assisted Mott insulators, in which local, spin-orbit entangled j=1/2j=1/2 moments form that are subject to strong bond-directional interactions. On a conceptual level, Kitaev materials attract much interest for their unconventional forms of magnetism, such as spin liquid physics in two- and three-dimensional lattice geometries or the formation of non-trivial spin textures. Experimentally, a number of Kitaev materials have been synthesized, which includes the honeycomb materials Na2_2IrO3_3, α\alpha-Li2_2IrO3_3, and RuCl3_3, the triangular materials Ba3_3Irx_xTi3x_{3-x}O9_9, as well as the three-dimensional hyper-honeycomb and stripy-honeycomb materials β\beta-Li2_2IrO3_3 and γ\gamma-Li2_2IrO3_3. These lecture notes provide a short review of the current status of the theoretical and experimental exploration of these Kitaev materials.

Keywords

Cite

@article{arxiv.1701.07056,
  title  = {Kitaev Materials},
  author = {Simon Trebst},
  journal= {arXiv preprint arXiv:1701.07056},
  year   = {2017}
}

Comments

24 pages + references, short review for lecture notes of the Julich spring school "Topological Matter" (April 2017)

R2 v1 2026-06-22T17:59:13.199Z