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Reconstruction of Band Structure Induced by Electronic Nematicity in an FeSe Superconductor

We have performed high-resolution angle-resolved photoemission spectroscopy on FeSe superconductor (Tc ~ 8 K), which exhibits a tetragonal-to-orthorhombic structural transition at Ts ~ 90 K. At low temperature we found splitting of the energy bands as large as 50 meV at the M point in the Brillouin zone, likely caused by the formation of electronically driven nematic states. This band splitting persists up to T ~ 110 K, slightly above Ts, suggesting that the structural transition is triggered by the electronic nematicity. We have also revealed that at low temperature the band splitting gives rise to a van Hove singularity within 5 meV of the Fermi energy. The present result strongly suggests that this unusual electronic state is responsible for the unconventional superconductivity in FeSe.

preprint2014arXivOpen access
K. NakayamaY. MiyataG. N. PhanT. SatoY. TanabeT. UrataK. TanigakiT. Takahashi
cond-mat.supr-concond-mat.str-el
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K. NakayamaY. MiyataG. N. PhanT. SatoY. TanabeT. UrataK. TanigakiT. Takahashi

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