Quantum Selection of Order in an XXZ Antiferromagnet on a Kagom\'e Lattice

Abstract

Selection of the ground state of the kagom\'e-lattice XXZ antiferromagnet by quantum fluctuations is investigated by combining non-linear spin-wave and real-space perturbation theories. The two methods unanimously favor q=0 over 3×3 magnetic order in a wide range of the anisotropy parameter 0≤ ≤ 0.72. Both approaches are also in an accord on the magnitude of the quantum order-by-disorder effect generated by topologically non-trivial, loop-like spin-flip processes. A tentative S- phase diagram of the model is proposed.