Xu, J.; Benton, O.; Anand, V.K.; Islam, A.T.M.N.; Guidi, T.; Ehlers, G.; Feng, E.; Su, Y.; Sakai, A.; Gegenwart, P.; Lake, B.: Anisotropic exchange Hamiltonian, magnetic phase diagram, and domain inversion of Nd2Zr2O7. Physical Review B 99 (2019), p. 144420/1-14
10.1103/PhysRevB.99.144420
Open Access Version
Abstract:
We present thermodynamic and neutron-scattering measurements on the quantum spin ice candidate Nd2Zr2O7. The parametrization of the anisotropic exchange Hamiltonian is refined based on high-energyresolution inelastic neutron-scattering data together with thermodynamic data using linear spin-wave theory and numerical linked-cluster expansion. Magnetic phase diagrams are calculated using classical Monte Carlo simulations with fields along [100], [110], and [111] crystallographic directions which agree qualitatively with the experiment. Large hysteresis and irreversibility for [111] is reproduced and the microscopic mechanism is revealed by mean-field calculations to be the existence of metastable states and domain inversion. Our results shed light on the explanations of the recently observed dynamical kagome ice in Nd2Zr2O7 in [111] fields.