The low-T phase diagram of LiHoxY1-xF4

Abstract

The LiHoxY1-xF4 compound is widely considered to be the archetypal dipolar Quantum Ising system, with longitudinal dipolar interactions Vijzz between Ho spins \i,j \ competing with transverse field-induced tunneling, to give a T=0 quantum phase transition. By varying the Ho concentration x, the typical strength V0 of Vijzz can be varied over many orders of magnitude; and so can the transverse field H. A new effective Hamiltonian is derived, starting from the electronuclear degrees of freedom, and valid at low and intermediate temperatures. For any such dipolar Quantum Ising system, the hyperfine interaction will dominate the physics at low temperatures, even if its strength A0 < V0: one must therefore go beyond an electronic transverse field Quantum Ising model. We derive the full phase diagram of this system, including all nuclear levels, as a function of transverse field H, temperature T, and dipole concentration x. For LiHoxY1-xF4 we predict a re-entrant critical field as a function of x. We also predict the phase diagram for x=0.045, and the behavior of the system in magnetic resonance and μSR experiments.