Quantum Spin Liquid in a depleted triangular lattice Iridate KxIryO2

Abstract

We report discovery of a new iridate family KxIryO2 with depleted triangular lattice planes made up of edge sharing IrO6 octahedra separated by K planes. Such a material interpolates between the triangular and honeycomb lattices and is a new playground for Kitaev physics. The materials are Mott insulators with y = 1 - x/4. Physical property measurements for the x ≈ 0.85 material are reported. Using magnetic susceptibility versus temperature T measurements we find Seff = 1/2 moments interacting strongly with a Weiss temperature θ ≈ - 180~K and no magnetic order or spin freezing down to T = 1.8~K\@. Heat capacity shows a broad maximum around 30~K which is insensitive to magnetic fields and a T-linear low temperature behaviour with γ 10~mJ/mol~K2. These results are consistent with a gapless QSL state in K0.85Ir0.79O2.