THE STAGGERED CHARGE-ORDER PHASE OF THE EXTENDED HUBBARD MODEL
Abstract
We study the phase diagram of the extended Hubbard model in the atomic limit. At zero temperature, the phase diagram decomposes into six regions: three with homogeneous phases (characterized by particle densities =0, 1, and 2 and staggered charge density =0) and three with staggered phases (characterized by the densities =12, 1, and 32 and staggered densities ||=12, 1, and 12). Here we use Pirogov-Sinai theory to analyze the details of the phase diagram of this model at low temperatures. In particular, we show that for any sufficiently low nonzero temperature the three staggered regions merge into one staggered region S, without any phase transitions (analytic free energy and staggered order parameter ) within S.
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