In this non-degenerate mixture at charge neutrality, conductivity is temperature-independent at low T from Dirac carriers but acquires a negative correction from scattering with thermally excited massive holes that strengthens with temperature and is stronger for short-range interactions.
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Entanglement asymmetry for space-inversion symmetry of free fermions on honeycomb lattices exhibits nonanalytic dependence on energy imbalance and persists after a quench to the symmetric point due to flat bands in certain geometries.
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Interaction-driven transport in a non-degenerate mixture of Dirac and massive fermions at charge neutrality point
In this non-degenerate mixture at charge neutrality, conductivity is temperature-independent at low T from Dirac carriers but acquires a negative correction from scattering with thermally excited massive holes that strengthens with temperature and is stronger for short-range interactions.
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Dynamics of entanglement asymmetry for space-inversion symmetry of free fermions on honeycomb lattices
Entanglement asymmetry for space-inversion symmetry of free fermions on honeycomb lattices exhibits nonanalytic dependence on energy imbalance and persists after a quench to the symmetric point due to flat bands in certain geometries.