Effect of anisotropy on the ground-state magnetic ordering of the spin-one quantum J1XXZ--J2XXZ model on the square lattice

Abstract

We study the zero-temperature phase diagram of the J1XXZ--J2XXZ Heisenberg model for spin-1 particles on an infinite square lattice interacting via nearest-neighbour (J1 1) and next-nearest-neighbour (J2 > 0) bonds. Both bonds have the same XXZ-type anisotropy in spin space. The effects on the quasiclassical N\'eel-ordered and collinear stripe-ordered states of varying the anisotropy parameter is investigated using the coupled cluster method carried out to high orders. By contrast with the spin-1/2 case studied previously, we predict no intermediate disordered phase between the N\'eel and collinear stripe phases, for any value of the frustration J2/J1, for either the z-aligned ( > 1) or xy-planar-aligned (0 ≤ < 1) states. The quantum phase transition is determined to be first-order for all values of J2/J1 and . The position of the phase boundary J2c() is determined accurately. It is observed to deviate most from its classical position J2c = 1/2 (for all values of > 0) at the Heisenberg isotropic point ( = 1), where J2c(1) = 0.55 0.01. By contrast, at the XY isotropic point ( = 0), we find J2c(0) = 0.50 0.01. In the Ising limit ( ∞) J2c 0.5 as expected.