Yueren Xu scite author profile

In order to improve the advantages and the reliability of the second derivative method in tracking the position of extrema from experimental curves, we develop a novel analysis method based on the mathematical concept of curvature. We derive the formulas for the curvature in one and two dimensions and demonstrate their applicability to simulated and experimental angle-resolved photoemission spectroscopy data. As compared to the second derivative, our new method improves the localization of the extrema and reduces the peak broadness for a better visualization on intensity image plots.

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Electronic structure of heavily electron-doped BaFe_1.7Co_0.3As₂studied by angle-resolved photoemission

Sekiba

et al. 2009

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We have performed high-resolution angle-resolved photoemission spectroscopy on heavily electrondoped non-superconducting (SC) BaFe1.7Co0.3As2. We find that the two hole Fermi surface pockets at the Brillouin zone center observed in the hole-doped superconducting Ba0.6K0.4Fe2As2 are absent or very small in this compound, while the two electron pockets at the zone corner significantly expand due to electron doping by the Co substitution. Comparison of the Fermi surface between non-SC and SC samples indicates that the coexistence of hole and electron pockets connected via the antiferromagnetic wave vector is essential in realizing the mechanism of superconductivity in the iron-based superconductors.

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Electronic structure of optimally doped pnictide Ba_0.6K_0.4Fe₂As₂: a comprehensive angle-resolved photoemission spectroscopy investigation

Ding

Nakayama

Richard

et al. 2011

J. Phys.: Condens. Matter

108

122

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The electronic structure of the Fe-based superconductor Ba(0.6)K(0.4)Fe(2)As(2) is studied by means of angle-resolved photoemission. We identify dispersive bands crossing the Fermi level forming hole-like (electron-like) Fermi surfaces (FSs) around Γ (M) with nearly nested FS pockets connected by the antiferromagnetic wavevector. Compared to band structure calculation findings, the overall bandwidth is reduced by a factor of 2 and the low energy dispersions display even stronger mass renormalization. Using an effective tight banding model, we fitted the band structure and the FSs to obtain band parameters reliable for theoretical modeling and calculation of physical quantities.

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Yueren Xu

A precise method for visualizing dispersive features in image plots

Electronic structure of heavily electron-doped BaFe_1.7Co_0.3As₂studied by angle-resolved photoemission

Electronic structure of optimally doped pnictide Ba_0.6K_0.4Fe₂As₂: a comprehensive angle-resolved photoemission spectroscopy investigation

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Yueren Xu

A precise method for visualizing dispersive features in image plots

Electronic structure of heavily electron-doped BaFe1.7Co0.3As2studied by angle-resolved photoemission

Electronic structure of optimally doped pnictide Ba0.6K0.4Fe2As2: a comprehensive angle-resolved photoemission spectroscopy investigation

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Product

Resources

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Electronic structure of heavily electron-doped BaFe_1.7Co_0.3As₂studied by angle-resolved photoemission

Electronic structure of optimally doped pnictide Ba_0.6K_0.4Fe₂As₂: a comprehensive angle-resolved photoemission spectroscopy investigation