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Quantum spin liquid in the Ising triangular-lattice antiferromagnet neodymium heptatantalate

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arxiv 2201.01057 v1 pith:BRWHJOT5 submitted 2022-01-04 cond-mat.str-el

Quantum spin liquid in the Ising triangular-lattice antiferromagnet neodymium heptatantalate

classification cond-mat.str-el
keywords spinquantummagneticstateantiferromagnetisingliquidliquids
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Disordered magnetic states known as spin liquids are of paramount importance in both fundamental and applied science. A classical state of this kind was predicted for the Ising antiferromagnetic triangular model more than half a century ago, while additional non-commuting exchange terms were proposed to induce its quantum version -- a quantum spin liquid. These predictions have not been yet confirmed experimentally. Here we report a discovery of such a state in the structurally perfect triangular-lattice antiferromagnet NdTa$_7$O$_{19}$. Its magnetic ground state is characterized by spin-1/2 degrees of freedom with Ising-like interactions and gives rise to low-frequency spin excitations persisting down to the lowest temperatures. 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$_7$O$_{19}$ as a novel framework for realization of these states, which represent a promising platform for quantum applications.

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