Low density ferromagnetism in Extended Hubbard ( t-t'-U ) Model

Abstract

We study the existence of ferromagnetism in one dimensional Hubbard Model with on site interaction and nearest and next nearest neighbor hopping. Using the Hubbard I approximation, a self consistent equation for <nσ>, the particle density with spin σ is obtained. We find that ferromagnetism exists over a wide range of values of the next nearest neighbor hopping element t' when on-site interaction U is large. The phase diagram as a function of t'/t and the electron density <n> has been obtained by numerically solving the self consistent equation. It is found that the maximum density at which ferromagnetism can occur, peaks around t'/t ≈ -0.53. We show that this phenomenon is a result of the peculiar way in which the t' term modifies the density of states.

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