Quantum Monte Carlo simulations of infinitely strongly correlated fermions
Abstract
Numerical simulations of the two-dimensional t-J model in the limit J/t 1 are performed for rather large systems (up to N = 12 × 12) using a world-line loop-algorithm. It is shown that in the one-hole case with J=0, where no minus signs appear, very low temperatures (β t 3000) are necessary in order to reach Nagaoka's state. J/t 0.05 leads to the formation of partially polarized systems, whereas J/t 0.05 corresponds to minimal spin. The two-hole case shows enhanced total spin up to the lowest attainable temperatures (β t = 150).
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