Artículo
Quantum phases in the frustrated Heisenberg model on the bilayer honeycomb lattice
Fecha de publicación:
01/2014
Editorial:
American Physical Society
Revista:
Physical Review B: Condensed Matter and Materials Physics
ISSN:
1098-0121
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
We use a combination of analytical and numerical techniques to study the phase diagram of the frustrated Heisenberg model on the bilayer honeycomb lattice. Using the Schwinger-boson description of the spin operators followed by a mean-field decoupling, the magnetic phase diagram is studied as a function of the frustration and the interlayer couplings. The presence of both magnetically ordered and disordered phases is investigated by means of the evaluation of ground-state energy, spin gap, local magnetization, and spin-spin correlations. We observe a phase with a spin gap and short-range Néel correlations that survives for nonzero next-nearest-neighbor interaction and interlayer coupling. Furthermore, we detect signatures of a reentrant behavior in the melting of the Néel phase and symmetry restoring when the system undergoes a transition from an on-layer nematic valence-bond crystal phase to an interlayer valence-bond crystal phase. We complement our work with exact diagonalization on small clusters and dimer-series expansion calculations, together with a linear spin-wave approach to study the phase diagram as a function of the spin S, the frustration, and the interlayer couplings.
Palabras clave:
Quantum
,
phases
,
frustrated
,
Heisenberg
,
honeycomb
,
bilayer
,
lattice
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Citación
Zhang, Hao; Arlego, Marcelo José Fabián; Lamas, Carlos Alberto; Quantum phases in the frustrated Heisenberg model on the bilayer honeycomb lattice; American Physical Society; Physical Review B: Condensed Matter and Materials Physics; 89; 1-2014; 24403-24411
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