Chiral phonons in L3_1 helical crystals generate rotational electron-phonon interactions that drive orbital angular momentum transfer m_ℓ to m_ℓ - m_s, with the response suppressed at Γ and zone boundary but enhanced at intermediate wavevectors due to phonon band degeneracies.
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Moderate disorder enhances conductance in magic-angle TBG via effective inter-moiré tunneling before strong disorder induces localization, a behavior absent in non-flat-band TBG.
In an off-diagonal Aubry-André-Harper chain, transport signatures distinguish edge states, in-band bulk states, and band-edge bulk states by their system-size dependence, resonance broadening, and dephasing sensitivity.
citing papers explorer
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Microscopic Theory of Chiral-Phonon-Induced Orbital Selectivity in Helical Crystals
Chiral phonons in L3_1 helical crystals generate rotational electron-phonon interactions that drive orbital angular momentum transfer m_ℓ to m_ℓ - m_s, with the response suppressed at Γ and zone boundary but enhanced at intermediate wavevectors due to phonon band degeneracies.
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The fate of disorder in twisted bilayer graphene near the magic angle
Moderate disorder enhances conductance in magic-angle TBG via effective inter-moiré tunneling before strong disorder induces localization, a behavior absent in non-flat-band TBG.
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Transport characteristics of bulk and edge states in an off-diagonal Aubry--Andr\'e--Harper chain
In an off-diagonal Aubry-André-Harper chain, transport signatures distinguish edge states, in-band bulk states, and band-edge bulk states by their system-size dependence, resonance broadening, and dephasing sensitivity.
- Rhombohedral graphite junctions as a platform for continuous tuning between topologically trivial and non-trivial electronic phases