ARPES on Na$_{0.6}$CoO$_{2}$: Fermi surface, extended flat dispersion, and unusual band splitting

A.K.P. Sekharan; B.C. Sales; D. Mandrus; H.-B. Yang; H. Ding; H. Matsui; J.C. Campuzano; R. Jin; S.-C. Wang; S. Souma

arxiv: cond-mat/0310532 · v1 · submitted 2003-10-22 · ❄️ cond-mat.supr-con · cond-mat.str-el

ARPES on Na_(0.6)CoO₂: Fermi surface, extended flat dispersion, and unusual band splitting

H.-B. Yang , S.-C. Wang , A.K.P. Sekharan , H. Matsui , S. Souma , T. Sato , T. Takahashi , T. Takeuchi

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J.C. Campuzano R. Jin B.C. Sales D. Mandrus Z. Wang H. Ding

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classification ❄️ cond-mat.supr-con cond-mat.str-el

keywords bandgammaalongfermisplittingsurfacearpesdispersion

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The electronic structure of single crystals Na$_{0.6}$CoO$_2$, which are closely related to the superconducting Na$_{0.3}$CoO$_2$.$y$H$_2$O ($T_c \sim 5K$), is studied by angle-resolved photoelectron spectroscopy. While the measured Fermi surface is found to be consistent with the prediction of a local density band theory, the energy dispersion is highly renormalized, with an anisotropy along the two principle axes ($\Gamma$-$K$, $\Gamma$-$M$). Our ARPES result also indicates that an extended flat band is formed slightly above $E_F$ along $\Gamma$-$K$. In addition, an unusual band splitting is observed in the vicinity of the Fermi surface along the $\Gamma$-$M$ direction, which differs from the predicted bilayer splitting.

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ARPES on Na_(0.6)CoO₂: Fermi surface, extended flat dispersion, and unusual band splitting

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