Magnetic and quantum disordered phases in triangular-lattice Heisenberg antiferromagnets

L. O. MANUEL; CECCATTO, H. A.

PHYSICAL REVIEW B - CONDENSED MATTER AND MATERIALS PHYSICS

American Physical Society

Lugar: New York, Estados Unidos de America; Año: 1999 vol. 60 p. 9489 - 9493

0163-1829

We study, within the Schwinger-boson approach, the ground-state structure of two Heisenberg antiferromagnets on the triangular lattice: the J1-J2 model, which includes a next-nearest-neighbor coupling J2, and the spatially-anisotropic J1-J1´ model, in which the nearest-neighbor coupling takes a different value J1´ along one of the bond directions. The motivations for the study of these systems range from general theoretical questions concerning frustrated quantum spin models to the concrete description of the insulating phase of some layered molecular crystals. For both models, the inclusion of one-loop corrections to saddle-point results leads to theprediction of nonmagnetic phases for particular values of the parameters J1 /J2 and J1´/J1 . In the case of the J1-J2 model we shed light on the existence of such disordered quantum state, a question which is controversial in the literature. For the J1-J1´ model our results for the ground-state energy, quantum renormalization of thepitch in the spiral phase, and the location of the nonmagnetic phases, nicely agree with series expansions predictions.