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Intrinsic new properties of a quantum spin liquid

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arxiv 2102.09271 v4 pith:YKEPOGRZ submitted 2021-02-18 cond-mat.str-el cond-mat.mtrl-sci

Intrinsic new properties of a quantum spin liquid

classification cond-mat.str-el cond-mat.mtrl-sci
keywords magneticspintemperaturesfluctuationsheatpropertiesquantumspecific
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Quantum fluctuations are expected to lead to highly entangled spin-liquid states in certain two-dimensional spin-1/2 compounds. We have synthesized and measured thermodynamic properties and muon spin relaxation rates in the copper-based two-dimensional triangular-lattice spin liquids Lu$_3$Cu$_2$Sb$_3$O$_{14}$ and Lu$_3$CuZnSb$_3$O$_{14}$. The former is the least disordered of this kind discovered to date. Magnetic entropy generation at high temperatures has been ruled out after carefully correcting for the lattice specific heat. Surprisingly, roughly half of the magnetic entropy is missing down to temperatures of O(10$^{-3}$) the exchange energy, independent of magnetic field up to $g\mu_B H \gtrsim k_B\Theta_W$, where $\Theta_W$ is the Weiss temperature. The magnetic specific heat divided by temperature $C_M(T)/T$ and muon spin relaxation rate $\lambda(T)$ are both temperature-independent at low temperatures, followed by logarithmic decreases with increasing temperature. This behavior can be simply characterized by scale-invariant time-dependent fluctuations with a single parameter. Since no cooperative effects due to impurities are observed, the measured properties are intrinsic. They are evidence that in Lu$_3$Cu$_2$Sb$_3$O$_{14}$ massive quantum fluctuations lead to either a gigantic specific heat peak from singlet excitations at very low temperatures or, perhaps less likely, an extensively degenerate possibly topological singlet ground state.

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  1. Novel Quantum Spin Liquid States in the $S = {\frac{1}{2}}$ Three-Dimensional Compound Y$_{3}$Cu$_{2}$Sb$_{3}$O$_{14}$

    cond-mat.str-el 2025-09 unverdicted novelty 5.0

    Y3Cu2Sb3O14 shows no long-range order to 0.077 K, with NMR anomaly at 120 K attributed to partial VBS and muon data indicating QSL below 1 K driven by antiferromagnetic frustration.