First Time Study of Magnetism and Ion Diffusion in Honeycomb Layered Oxide K$_2$Ni$_2$TeO$_6$ by Muon Spin Rotation

Investigation of potassium-ion (K$^+$) dynamics in materials using magneto-spin properties is an indomitable feat, due to its inherently weak nuclear magnetic moment relative to other lithophile ions such as sodium. On the other hand, spin-polarised muons in muon spin rotation and relaxation ($\mu^+$SR) measurements are known to have strong gyromagnetic moment ideal for probing dynamics of ions with weak magneto-spin moments in materials. Here we report the magnetic properties and K$^+$ dynamics in honeycomb layered oxide material using $\mu^+$SR measurements. K$_2$Ni$_2$TeO$_6$ exhibits an antiferromagnetic transition at 26 K, as further affirmed by magnetic susceptibility measurements. Moreover, K$_2$Ni$_2$TeO$_6$ becomes antiferromagnetic under a first-order phase transition, with a possible commensurate spin ordering. $\mu^+$SR studies performed on K$_2$Ni$_2$TeO$_6$ at high temperatures reveal potassium ions (K$^+$) to be mobile beyond 250 K (with an extrapolated activation energy of 120 (13) meV), revealing for the first time that K$^+$ dynamics in potassium-based materials can be measured using $\mu^+$SR.