Filling dependence of correlation exponents and metal-Mott insulator transition in strongly correlated electron systems

doi:10.1088/1674-1056/19/12/127401

Abstract Using a universal relation between electron filling factor and ground state energy, this paper studies the dependence of correlation exponents on the electron filling factor of one-dimensional extended Hubbard model in a strong coupling regime, and demonstrates that in contrast to the usual Hubbard model (g_c=1/2), the dimensionless coupling strength parameter g_c heavily depends on the electron filling, and it has a "particle–hole" symmetry about electron quarter filling point. As increasing the nearest neighbouring repulsive interaction, the single particle spectral weight is transferred from low energy to high energy regimes. Moreover, at electron quarter filling, there is a metal-Mott insulator transition at the strong coupling point g_c=1/4, and this transition is a continuous phase transition.

Keywords: strong correlation correlation effect correlation exponent correlation function

Received: 23 January 2010
Revised: 02 July 2010
Accepted manuscript online:

PACS:	71.10.Fd	(Lattice fermion models (Hubbard model, etc.))
	71.27.+a	(Strongly correlated electron systems; heavy fermions)
	71.30.+h	(Metal-insulator transitions and other electronic transitions)

Fund: Project supported by the National Natural Science Foundation of China (Grant No. 10774152), the Natural Science Foundation of Zhejiang Province of China (Grant No. Y1100088), and the Founding of Zhejiang Ocean University.

Cite this article:

Lin Ming-Xi(林明喜) and Qi Sheng-Wen(祁胜文) Filling dependence of correlation exponents and metal-Mott insulator transition in strongly correlated electron systems 2010 Chin. Phys. B 19 127401

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Filling dependence of correlation exponents and metal-Mott insulator transition in strongly correlated electron systems

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