Junki Sonoyama scite author profile

The electronic structure of nearly optimally doped novel superconductor LaO 1−x F x BiS 2 (x = 0.46) was investigated using angle-resolved photoemission spectroscopy (ARPES). We clearly observed band dispersions from 2 to 6 eV binding energy and near the Fermi level (E F ), which are well reproduced by first-principles calculations when the spin-orbit coupling is taken into account. The ARPES intensity map near E F shows a squarelike distribution around the (Z) point in addition to electronlike Fermi-surface (FS) sheets around the X(R) point, indicating that FS of LaO 0.54 F 0.46 BiS 2 is in close proximity to the theoretically predicted topological change.

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Soft X-ray Photoemission Study of New BiS₂-Layered Superconductor LaO₁₋_xF_xBiS₂

Nagira

Sonoyama

Wakita

et al. 2014

J. Phys. Soc. Jpn.

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Characteristic two-dimensional Fermi surface topology of high-Tc iron-based superconductors

Sunagawa

Ishiga

Tsubota

et al. 2014

Sci Rep

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Unconventional Cooper pairing originating from spin or orbital fluctuations has been proposed for iron-based superconductors. Such pairing may be enhanced by quasi-nesting of two-dimensional electron and hole-like Fermi surfaces (FS), which is considered an important ingredient for superconductivity at high critical temperatures (high-Tc). However, the dimensionality of the FS varies for hole and electron-doped systems, so the precise importance of this feature for high-Tc materials remains unclear. Here we demonstrate a phase of electron-doped CaFe2As2 (La and P co-doped CaFe2As2) with Tc = 45 K, which is the highest Tc found for the AEFe2As2 bulk superconductors (122-type; AE = Alkaline Earth), possesses only cylindrical hole- and electron-like FSs. This result indicates that FS topology consisting only of two-dimensional sheets is characteristic of both hole- and electron-doped 122-type high-Tc superconductors.

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Nearly diffraction-limited hard X-ray line focusing with hybrid adaptive X-ray mirror based on mechanical and piezo-driven deformation

Goto¹,

Matsuyama²,

Hayashi³

et al. 2018

Opt. Express

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We have developed the new hybrid adaptive X-ray mirror based on mechanical and piezo-driven deformation to realize precise shape controllability on a long-length mirror. The mechanical bender approximately provides the required ellipse, while the piezoelectric actuators attached to the mirror correct very small residual errors to satisfy the diffraction-limited condition. The mechanical bender significantly reduces the role of the piezoelectric actuator, resulting in the suppression of accuracy degradation due to the drift and/or junction effect of the piezoelectric actuators. In addition, line focusing was demonstrated with two different numerical apertures at SPring-8, and the obtained beam sizes were 127 and 253 nm (FWHM), which agree well with the diffraction-limited sizes.

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Junki Sonoyama

Proximity to Fermi-surface topological change in superconductingLaO0.54F0.46BiS2

Soft X-ray Photoemission Study of New BiS₂-Layered Superconductor LaO₁₋_xF_xBiS₂

Characteristic two-dimensional Fermi surface topology of high-Tc iron-based superconductors

Nearly diffraction-limited hard X-ray line focusing with hybrid adaptive X-ray mirror based on mechanical and piezo-driven deformation

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Junki Sonoyama

Proximity to Fermi-surface topological change in superconductingLaO0.54F0.46BiS2

Soft X-ray Photoemission Study of New BiS2-Layered Superconductor LaO1−xFxBiS2

Characteristic two-dimensional Fermi surface topology of high-Tc iron-based superconductors

Nearly diffraction-limited hard X-ray line focusing with hybrid adaptive X-ray mirror based on mechanical and piezo-driven deformation

Contact Info

Product

Resources

About

Soft X-ray Photoemission Study of New BiS₂-Layered Superconductor LaO₁₋_xF_xBiS₂