M'-TbTaO4 orders antiferromagnetically below 2.1 K with moments along the c-axis; Dy shows possible short-range order near 2.7 K while Ho and Er remain disordered above 1.8 K, with Er exhibiting a Kramers doublet ground state.
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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.
Experimental study of Cu(Ampy)ClBr reveals a gapped phase in the 1D S=1/2 Heisenberg antiferromagnetic chain with short-range correlations but no static magnetism down to millikelvin temperatures.
citing papers explorer
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Bulk magnetic properties of distorted square lattice compounds M'-LnTaO4 (Ln = Tb, Dy, Ho, Er)
M'-TbTaO4 orders antiferromagnetically below 2.1 K with moments along the c-axis; Dy shows possible short-range order near 2.7 K while Ho and Er remain disordered above 1.8 K, with Er exhibiting a Kramers doublet ground state.
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Novel Quantum Spin Liquid States in the $S = {\frac{1}{2}}$ Three-Dimensional Compound Y$_{3}$Cu$_{2}$Sb$_{3}$O$_{14}$
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.
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Observation of a gapped phase in the one-dimensional $S = {\frac{1}{2}}$ Heisenberg antiferromagnetic chain Cu(Ampy)ClBr
Experimental study of Cu(Ampy)ClBr reveals a gapped phase in the 1D S=1/2 Heisenberg antiferromagnetic chain with short-range correlations but no static magnetism down to millikelvin temperatures.