Fuchs, Sebastian and Gull, Emanuel and Pollet, Lode and Burovski, Evgeni and Kozik, Evgeny and Pruschke, Thomas and Troyer, Matthias (2011) Thermodynamics of the 3D Hubbard Model on Approaching the Neel Transition. Physical review letters, 106 (3): 030401. -. ISSN 0031-9007
Abstract
We study the thermodynamic properties of the 3D Hubbard model for temperatures down to the Neel temperature by using cluster dynamical mean-field theory. In particular, we calculate the energy, entropy, density, double occupancy, and nearest-neighbor spin correlations as a function of chemical potential, temperature, and repulsion strength. To make contact with cold-gas experiments, we also compute properties of the system subject to an external trap in the local density approximation. We find that an entropy per particle S/N approximate to 0.65(6) at U/t = 8 is sufficient to achieve a Neel state in the center of the trap, substantially higher than the entropy required in a homogeneous system. Precursors to antiferromagnetism can clearly be observed in nearest-neighbor spin correlators.