Momentum-dependent electron-phonon coupling, enabled by Hubbard-corrected Fermi surface, is the leading driver of the charge density wave in quasi-1D ZrTe3.
Dal Corso, Comput
2 Pith papers cite this work. Polarity classification is still indexing.
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Direct ARPES evidence of robust topological surface states from Dirac nodal lines in Eu(Ga,Al)4 magnets, coupled to helical antiferromagnetic order, confirms dual real-space and momentum-space topology.
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Fermi surface geometry and momentum dependent electron-phonon coupling drive the charge density wave in quasi-1D ZrTe$3$
Momentum-dependent electron-phonon coupling, enabled by Hubbard-corrected Fermi surface, is the leading driver of the charge density wave in quasi-1D ZrTe3.
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Robust topological surface states in skyrmion-host magnets Eu(Ga,Al)4: evidence for dual topology
Direct ARPES evidence of robust topological surface states from Dirac nodal lines in Eu(Ga,Al)4 magnets, coupled to helical antiferromagnetic order, confirms dual real-space and momentum-space topology.