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TT: Fachverband Tiefe Temperaturen
TT 3: Focus Session: Entanglement as a Probe for Correlated Quantum Matter
TT 3.6: Vortrag
Montag, 27. September 2021, 15:45–16:00, H6
Comparative study of the triangular spin-liquid candidates NaYbO2, KYbO2 and KYbS2 — •Franziska Grußler, Sebastian Bachus, Noah Winterhalter-Stocker, Philipp Gegenwart, and Alexander Tsirlin — Center for Electronic Correlations and Magnetism, University of Augsburg, Augsburg, Germany
Spin liquid is an entangled state of matter. NaYbO2, KYbO2 and KYbS2 feature the same space group R3m as the spin-liquid candidate YbMgGaO4 but evade structural disorder pertinent to that compound. We report a comparative study of the polycrystalline NaYbO2 and KYbO2 and single crystalline KYbS2 including their structural characterization and thermodynamic properties in the milli-K temperature range. The compounds reveal the reduction in magnetic couplings upon replacing Na by K and the enhanced easy-plane anisotropy upon replacing O by S. They show no signs of magnetic order in zero field, but undergo field-induced magnetic order. For KYbS2 a detailed B-T phase diagram is deduced from heat capacity, dilatometry and magnetization measurements for B∥c. By studying specific heat of NaYbO2 and KYbS2 at milli-K temperatures, we conclude that between 0.5 T and 2 T, within the putative spin-liquid phase, magnetic specific heat follows quadratic behavior expected for the gapless Dirac spin liquid. Our observations establish gapless nature of the spin-liquid phase of triangular antiferromagnets but show strong similarities to 120-degree ordered triangular antiferromagnets when B∥c is applied.