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Interplay of electron correlation and covalency in FeTe(0.6)Se(0.4)

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arxiv 1310.8380 v2 pith:NJKTPPN7 submitted 2013-10-31 cond-mat.str-el

Interplay of electron correlation and covalency in FeTe(0.6)Se(0.4)

classification cond-mat.str-el
keywords correlationlevelspectralelectronelectronicferminearstructure
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We investigate the electronic structure of FeTe(0.6)Se(0.4) employing high resolution photoemission spectroscopy and ab initio band structure calculations. Fe 2p core level and the valence band spectra exhibit signature of strong electron correlation in the electronic structure. The electronic states near the Fermi level reduces in intensity with the decrease in temperature in conformity with the insulating transport observed near 300 K. The observation of an insulator to metal transition around 150 K in the transport properties may be related to the spectral lineshape change in the vicinity of the Fermi level observed in this study. The spectral features near Fermi level exhibit significant p orbital character due to the correlation induced Fe d spectral weight transfer. The experimental spectra reveal dominant temperature dependence of the spectral functions possessing large p-character. These results demonstrate significant renormalization of the character of the conduction electrons due to electron correlation and emphasizes the importance of ligand states in the superconductivity of these materials.

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