Finite-size scaling for Mott metal-insulator transition on a half-filled non-partite lattice
Abstract
By applying a multi-stage real-space renormalization group procedure to Hubbard model, we examine the finite-size scaling in Mott metal-insulator transition(MIT) on a non-partite lattice. It is found that there exists a critic point U/t=12.5 for the MIT and the corresponding critical exponent for correlation length niu= 1 and the dynamic exponent z = 0.91 are obtained. On the critical point, the charge gap scales with the system size as Delta-g~1/L0.91.
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