Charge susceptibility of the Hubbard chain with next-nearest-neighbor hopping

Hiroki Nakano; Yoshinori Takahashi; Masatoshi Imada

doi:10.1016/j.physb.2005.01.176

Charge susceptibility of the Hubbard chain with next-nearest-neighbor hopping

Hiroki Nakano^*, Yoshinori Takahashi, Masatoshi Imada

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Metal-insulator transition is one of hot issues in condensed-matter physics. The transition between the doped metal and the Mott insulator can be realized in the Hubbard model theoretically. It was recently found that the ground state of the one-dimensional Hubbard model with next-nearest-neighbor hopping clearly shows partial ferromagnetism in the metallic phase near the half-filled Mott insulator. We study the hole density (δ) dependence of the charge susceptibility (χc) of this model by means of exact diagonalization of finite-size clusters. The behavior of the charge susceptibility characterizes the nature of the metal-insulator transition. We find that a region where the critical exponent α defined by χc∝δ-α is α=3 in sharp contrast with the known exponent α=1 in the ordinary one-dimensional Hubbard model.

Original language	English
Pages (from-to)	657-659
Number of pages	3
Journal	Physica B: Condensed Matter
Volume	359-361
Issue number	SPEC. ISS.
DOIs	https://doi.org/10.1016/j.physb.2005.01.176
Publication status	Published - 2005 Apr 30
Externally published	Yes

Keywords

Hubbard model
Metal-insulator transition
Partial ferromagnetism

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Electrical and Electronic Engineering

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10.1016/j.physb.2005.01.176

Cite this

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title = "Charge susceptibility of the Hubbard chain with next-nearest-neighbor hopping",

abstract = "Metal-insulator transition is one of hot issues in condensed-matter physics. The transition between the doped metal and the Mott insulator can be realized in the Hubbard model theoretically. It was recently found that the ground state of the one-dimensional Hubbard model with next-nearest-neighbor hopping clearly shows partial ferromagnetism in the metallic phase near the half-filled Mott insulator. We study the hole density (δ) dependence of the charge susceptibility (χc) of this model by means of exact diagonalization of finite-size clusters. The behavior of the charge susceptibility characterizes the nature of the metal-insulator transition. We find that a region where the critical exponent α defined by χc∝δ-α is α=3 in sharp contrast with the known exponent α=1 in the ordinary one-dimensional Hubbard model.",

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T1 - Charge susceptibility of the Hubbard chain with next-nearest-neighbor hopping

AU - Nakano, Hiroki

AU - Takahashi, Yoshinori

AU - Imada, Masatoshi

PY - 2005/4/30

Y1 - 2005/4/30

N2 - Metal-insulator transition is one of hot issues in condensed-matter physics. The transition between the doped metal and the Mott insulator can be realized in the Hubbard model theoretically. It was recently found that the ground state of the one-dimensional Hubbard model with next-nearest-neighbor hopping clearly shows partial ferromagnetism in the metallic phase near the half-filled Mott insulator. We study the hole density (δ) dependence of the charge susceptibility (χc) of this model by means of exact diagonalization of finite-size clusters. The behavior of the charge susceptibility characterizes the nature of the metal-insulator transition. We find that a region where the critical exponent α defined by χc∝δ-α is α=3 in sharp contrast with the known exponent α=1 in the ordinary one-dimensional Hubbard model.

AB - Metal-insulator transition is one of hot issues in condensed-matter physics. The transition between the doped metal and the Mott insulator can be realized in the Hubbard model theoretically. It was recently found that the ground state of the one-dimensional Hubbard model with next-nearest-neighbor hopping clearly shows partial ferromagnetism in the metallic phase near the half-filled Mott insulator. We study the hole density (δ) dependence of the charge susceptibility (χc) of this model by means of exact diagonalization of finite-size clusters. The behavior of the charge susceptibility characterizes the nature of the metal-insulator transition. We find that a region where the critical exponent α defined by χc∝δ-α is α=3 in sharp contrast with the known exponent α=1 in the ordinary one-dimensional Hubbard model.

KW - Hubbard model

KW - Metal-insulator transition

KW - Partial ferromagnetism

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Charge susceptibility of the Hubbard chain with next-nearest-neighbor hopping

Abstract

Keywords

ASJC Scopus subject areas

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