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Rare-earth chalcogenides: a large family of triangular lattice spin liquid candidates. A high-temperature quantum spin liquid with polaron spins. Quantum spin liquid in the spin-1/2 triangular antiferromagnet EtMe 3Sb 2. Itou, T., Oyamada, A., Maegawa, S., Tamura, M. Spin liquid state in an organic Mott insulator with a triangular lattice. Shimizu, Y., Miyagawa, K., Kanoda, K., Maesato, M. Nature of the randomness-induced quantum spin liquids in two dimensions. Quantum spin-liquid behavior in the spin-1/2 random Heisenberg antiferromagnet on the triangular lattice.
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Valence bonds in random quantum magnets: theory and application to YbMgGaO 4. Disorder-induced mimicry of a spin liquid in YbMgGaO 4. Muon spin relaxation evidence for the U(1) quantum spin-liquid ground state in the triangular antiferromagnet YbMgGaO 4. Evidence for a spinon Fermi surface in a triangular-lattice quantum-spin-liquid candidate. Rare-earth triangular lattice spin liquid: a single-crystal study of YbMgGaO 4. Correlated quantum phenomena in the strong spin-orbit regime. Spin liquid versus spin orbit coupling on the triangular lattice. Anisotropic spin model of strong spin-orbit-coupled triangular antiferromagnets. On the ground state properties of the anisotropic triangular antiferromagnet. Anisotropic-exchange magnets on a triangular lattice: spin waves, accidental degeneracies, and dual spin liquids. Quantum phase diagram of the triangular-lattice x x z model in a magnetic field. Two spin liquid phases in the spatially anisotropic triangular Heisenberg model.
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Spin liquid nature in the Heisenberg J 1 − J 2 triangular antiferromagnet. Iqbal, Y., Hu, W.-J., Thomale, R., Poilblanc, D. Long-range Néel order in the triangular Heisenberg model. Resonating valence bonds: a new kind of insulator? Mater. Towards properties on demand in quantum materials. Our study demonstrates the key role of strong spin–orbit coupling in stabilizing spin liquids that result from magnetic anisotropy and highlights the large family of rare-earth (RE) heptatantalates RETa 7O 19 as a framework for realization of these states, which represent a promising platform for quantum applications.īasov, D., Averitt, R. We determine its magnetic ground state, which is characterized by effective spin-1/2 degrees of freedom with Ising-like nearest-neighbour correlations and gives rise to spin excitations persisting down to the lowest accessible temperature of 40 mK. Here, we report evidence for such a state in the triangular-lattice antiferromagnet NdTa 7O 19. However, these predictions have not yet been confirmed experimentally. A classical state of this kind was predicted for the Ising antiferromagnetic triangular model, while additional non-commuting exchange terms were proposed to induce its quantum version-a quantum spin liquid. Disordered magnetic states known as spin liquids are of paramount importance in both fundamental and applied science.