Quantum J1--J2 antiferromagnet on the stacked square lattice: Influence of the interlayer coupling on the ground-state magnetic ordering
Abstract
Using the coupled-cluster method (CCM) and the rotation-invariant Green's function method (RGM), we study the influence of the interlayer coupling J on the magnetic ordering in the ground state of the spin-1/2 J1-J2 frustrated Heisenberg antiferromagnet (J1-J2 model) on the stacked square lattice. In agreement with known results for the J1-J2 model on the strictly two-dimensional square lattice (J=0) we find that the phases with magnetic long-range order at small J2< Jc1 and large J2> Jc2 are separated by a magnetically disordered (quantum paramagnetic) ground-state phase. Increasing the interlayer coupling J>0 the parameter region of this phase decreases, and, finally, the quantum paramagnetic phase disappears for quite small J 0.2 ... 0.3 J1.
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