Hall Coefficient and Resistivity in the Doped Bilayer Hubbard Model

Shi, Yin; Schirmer, Jonathan; Chen, Lei

doi:10.21203/rs.3.rs-3236090/v1

2023

DOI: 10.21203/rs.3.rs-3236090/v1

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Hall Coefficient and Resistivity in the Doped Bilayer Hubbard Model

Yin Shi

Jonathan Schirmer

Lei Chen

Abstract: Finding and understanding non-Fermi liquid transport behaviors are at the core of condensed matter physics. Most of the existing studies were devoted to the monolayer Hubbard model, which is the simplest model that captures essential features of high-temperature superconductivity. Here we discover a new type of non-Fermi liquid behavior emergent in the hole-doped bilayer Hubbard model, using dynamical mean-field theory with a full consideration of the short-range interlayer electron correlation. We find that a… Show more

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Hall anomalies of the doped Mott insulator

Khait,

Bhattacharyya,

Samanta

et al. 2023

npj Quantum Mater.

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The Hall coefficient of the strongly interacting square lattice Hubbard model is calculated for temperatures between the antiferromagnetic interaction and the Mott gap scales. The leading order thermodynamic formula is evaluated for all doping concentrations. Second-order corrections of the thermodynamic formula are calculated and found to be negligible. The Hall coefficient diverges toward the Mott insulator. Below 45% doping the Hall sign is reversed relative to band structure-based Boltzmann’s equation. These results elucidate the effects of the Mott insulator on the charge carriers and their non-Fermi liquid transport.

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Hall anomalies of the doped Mott insulator

Khait,

Bhattacharyya,

Samanta

et al. 2023

npj Quantum Mater.

View full text Add to dashboard Cite

show abstract

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Hall Coefficient and Resistivity in the Doped Bilayer Hubbard Model

Cited by 1 publication

References 1 publication

Hall anomalies of the doped Mott insulator

Hall anomalies of the doped Mott insulator

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