A bilayer triangular-lattice antiferromagnet shows a cascade of classical spin liquids from field-controlled Ising dimer dilution, with residual entropy 1/2(1-M/Ms)Rln2 and the 5/6 plateau as a quantum spin liquid candidate.
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Quantum fluctuations in the S=3/2 honeycomb model interpolating between Kitaev and AKLT states melt classical and semi-classical orders into a quantum-entangled phase with suppressed spin correlations and enhanced entanglement entropy.
Additional spin-orbital degrees of freedom produce strong thermal and quantum fluctuations that stabilize disordered nematic phases in the extended Kitaev-Yao-Lee model.
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Cascade of Spin Liquids in a Bilayer Triangular-lattice Antiferromagnet Rb_2Co_2(SeO_3)_3
A bilayer triangular-lattice antiferromagnet shows a cascade of classical spin liquids from field-controlled Ising dimer dilution, with residual entropy 1/2(1-M/Ms)Rln2 and the 5/6 plateau as a quantum spin liquid candidate.
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Kitaev Meets Affleck-Kennedy-Lieb-Tasaki: Competing Quantum Disorder in Spin-3/2 Honeycomb Systems
Quantum fluctuations in the S=3/2 honeycomb model interpolating between Kitaev and AKLT states melt classical and semi-classical orders into a quantum-entangled phase with suppressed spin correlations and enhanced entanglement entropy.
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Thermal and quantum fluctuations in extended Kitaev-Yao-Lee spin-orbital model
Additional spin-orbital degrees of freedom produce strong thermal and quantum fluctuations that stabilize disordered nematic phases in the extended Kitaev-Yao-Lee model.