The first-principles band theory paradigm has been a key player not only in the process of
discovering new classes of topologically interesting materials, but also for identifying salient …

Recently, the effects of spin-orbit coupling (SOC) in correlated materials have become one
of the most actively studied subjects in condensed matter physics, as correlations and SOC …

A complex iridium oxide β-Li 2 IrO 3 crystallizes in a hyperhoneycomb structure, a three-
dimensional analogue of honeycomb lattice, and is found to be a spin-orbital Mott insulator …

Kitaev interactions underlying a quantum spin liquid have long been sought, but
experimental data from which their strengths can be determined directly, are still lacking …

Abstract Effects of spin–orbit interactions in condensed matter are an important and rapidly
evolving topic. Strong competition between spin–orbit, on-site Coulomb and crystalline …

Compounds with kagome lattice usually host many exotic quantum states, including the
quantum spin liquid, non-trivial topological Dirac bands and a strongly renormalized flat …

A rare combination of strong spin–orbit coupling and electron–electron correlations makes
the iridate Mott insulator Sr2IrO4 a promising host for novel electronic phases of matter,. The …

The 5d iridium‐based transition metal oxides have gained broad interest because of their
strong spin–orbit coupling, which favors new or exotic quantum electronic states. On the …

We synthesize and study single crystals of a new double-perovskite Sr 2 YIrO 6. Despite two
strongly unfavorable conditions for magnetic order, namely, pentavalent Ir 5+(5 d 4) ions …

A free web page under the name MAGNDATA, which provides detailed quantitative
information on more than 400 published magnetic structures, has been developed and is …