Mi-Ji Liang scite author profile

Mi-Ji Liang

2Publications

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Lanzhou University

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Disorder in interacting quasi-one-dimensional systems: flat and dispersive bands

Liang¹,

Yang²,

Chen³

et al. 2023

Preprint

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We investigate the superconductor-insulator transition (SIT) in disordered quasi-one dimensional systems using the density-matrix renormalization group method. Focusing on the case of an interacting spinful Hamiltonian at quarter-filling, we contrast the differences arising in the SIT when the parent non-interacting model features either flat or dispersive bands. Furthermore, by comparing disorder distributions that preserve or not SU(2)-symmetry, we unveil the critical disorder amplitude that triggers insulating behavior. While scaling analysis suggests the transition to be of a Berezinskii-Kosterlitz-Thouless type for all models (two lattices and two disorder types), only in the flat-band model with Zeeman-like disorder the critical disorder is nonvanishing. In this sense, the flat-band structure does strengthen superconductivity. For both flat and dispersive band models, i) in the presence of SU(2)-symmetric random chemical potentials, the disorder-induced transition is from superconductor to insulator of singlet pairs; ii) for the Zeeman-type disorder, the transition is from superconductor to insulator of unpaired fermions. In all cases, our numerical results suggest no intermediate disorder-driven metallic phase.

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Disorder in interacting quasi-one-dimensional systems: Flat and dispersive bands

et al. 2023

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Mi-Ji Liang

Disorder in interacting quasi-one-dimensional systems: flat and dispersive bands

Disorder in interacting quasi-one-dimensional systems: Flat and dispersive bands

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