English

Recent progress on correlated electron systems with strong spin-orbit coupling

Strongly Correlated Electrons 2016-09-05 v1

Abstract

Emergence of novel quantum ground states in correlated electron systems with strong spin-orbit coupling has been a recent subject of intensive studies. While it has been realized that spin-orbit coupling can provide non-trivial band topology in weakly interacting electron systems, as in topological insulators and semi-metals, the role of electron-electron interaction in strongly spin-orbit coupled systems has not been fully understood. The availability of new materials with significant electron correlation and strong spin-orbit coupling now makes such investigations possible. Many of these materials contain 5d or 4d transition metal elements; the prominent examples are iridium oxides or iridates. In this review, we succinctly discuss recent theoretical and experimental progress on this subject. After providing a brief overview, we focus on pyrochlore iridates and three-dimensional honeycomb iridates. In pyrochlore iridates, we discuss the quantum criticality of the bulk and surface states, and the relevance of the surface/boundary states in a number of topological and magnetic ground states, both in the bulk and thin film configurations. Experimental signatures of these boundary and bulk states are discussed. Domain wall formation and strongly-direction-dependent magneto-transport are also discussed. Regarding the three-dimensional honeycomb iridates, we consider possible quantum spin liquid phases and unusual magnetic orders in theoretical models with strongly bond-dependent interactions. These theoretical ideas and results are discussed in light of recent resonant X-ray scattering experiments on three-dimensional honeycomb iridates. We also contrast these results with the situation in two-dimensional honeycomb iridates. We conclude with the outlook on other related systems.

Keywords

Cite

@article{arxiv.1512.02224,
  title  = {Recent progress on correlated electron systems with strong spin-orbit coupling},
  author = {Robert Schaffer and Eric Kin-Ho Lee and Bohm-Jung Yang and Yong Baek Kim},
  journal= {arXiv preprint arXiv:1512.02224},
  year   = {2016}
}

Comments

19 pages plus references, submitted to Reports on Progress in Physics

R2 v1 2026-06-22T12:03:39.682Z