Journal
PHYSICAL REVIEW B
Volume 106, Issue 13, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.106.134410
Keywords
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Funding
- Theory of Quantum Matter Unit of the Okinawa Institute of Science and Technology Graduate University (OIST)
- JSPS KAKENHI [19K14665, 21K03477, 22H05266]
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We investigate the ground-state phase diagram of a spin-1/2 honeycomb-lattice antiferromagnetic model with three exchange interactions. The results show the existence of a Ne 'el phase and a gapped quantum paramagnetic phase, with hexagonal-singlet-type states and dimer-singlet-type states alternatingly.
We investigate the ground-state phase diagram of a spin-1/2 honeycomb-lattice antiferromagnetic (AF) Heisenberg model with three exchange interactions, JA, JB, and JC, that is realized in a distorted honeycomb -lattice antiferromagnet Cu2(pymca)3(ClO4). We remeasured the magnetic susceptibility of its polycrystalline sample with special care and determined the exchange parameters of this material through the comparison with numerical results based on a quantum Monte Carlo (QMC) method. The QMC method also provides a ground-state phase diagram in the JA/JC-JB/JC plane. The phase diagram consists of a small Ne ' el phase and a gapped quantum paramagnetic phase surrounding the Ne ' el phase. The latter includes six regimes of hexagonal-singlet-type states and dimer-singlet-type states alternatingly without boundaries closing the spin gap. We further calculate the equal-time spin structure factor in each phase using the QMC method. The computed spin dynamics by the exact diagonalization method exhibits continua near and in the AF phase. Characteristic four energy band structures in the state with strong hexagonal-singlet-type correlations are informative to clarify the ground state of Cu2(pymca)3(ClO4) by future neutron scattering measurements.
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