Renormalized Classical Theory of Quantum Magnets

Abstract

We derive a renormalized classical spin (RCS) theory for S > 1/2 quantum magnets by constraining a generalized classical theory that includes all multipolar fluctuations to a reduced CP1 phase space of dipolar SU(2) coherent states. When the spin Hamiltonian HS is linear in the spin operators Sj for each lattice site j, the RCS Hamiltonian H cl coincides with the usual classical model H cl = S→∞ HS. In the presence of non-linear terms, however, the RCS theory is more accurate than H cl. For the many materials modeled by spin Hamiltonians with (non-linear) single-ion anisotropy terms, the use of the RCS theory is essential to accurately model phase diagrams and to extract the correct Hamiltonian parameters from neutron scattering data