E138-02 - Forschungsbereich Correlations: Theory and Experiments
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Journal:
Physical Review B
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ISSN:
2469-9950
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Date (published):
15-Jan-2024
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Number of Pages:
16
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Publisher:
AMER PHYSICAL SOC
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Peer reviewed:
Yes
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Keywords:
dynamical mean field theory; Hubbard model; Mott transition; Dirac semimetal
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Abstract:
We investigate the quasiparticle and transport properties of a model describing interacting Dirac and Weyl semimetals in the presence of local Hubbard repulsion U, where we explicitly include a deviation from the linearity of the energy-momentum dispersion through an intermediate-energy scale Λ. Our focus lies on the correlated phase of the semimetal. At the nodal point, the renormalization of spectral weight at a fixed temperature T exhibits a weak dependence on Λ but is sensitive to the proximity to the Mott transition. Conversely, the scattering rate of quasiparticles and the resistivity display high-temperature exponents that crucially rely on Λ, leading to a crossover towards a conventional Fermi-liquid behavior at finite T. Finally, by employing the Nernst-Einstein relation for conductivity, we identify a corresponding density crossover as a function of the chemical potential.
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Project title:
Quantum phase transitions and collective modes: I 5868-N (FWF - Österr. Wissenschaftsfonds)
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Project (external):
Ministry of University and Research (MUR) National Innovation Ecosystem Deutsche Forschungsgemeinschaft Deutsche Forschungsgemeinschaft
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Project ID:
ECS00000041 - VITALITY - CUP E13C22001060006 258499086 390858490
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Research Areas:
Quantum Many-body Systems Physics: 50% Computational Materials Science: 50%
