Spin-integrated and spin-resolved photoemission study of Fe chalcogenides | Zendy

K. Shimada | Zendy; T. Mizokawa | Zendy; K. Mamiya | Zendy; T. Saitoh | Zendy; A. Fujimori | Zendy; Kanta Ono | Zendy; A. Kakizaki | Zendy; T. Ishii | Zendy; M. Shirai | Zendy; T. Kamimura | Zendy

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Spin-integrated and spin-resolved photoemission study of Fe chalcogenides

Author(s) -

K. Shimada,

T. Mizokawa,

K. Mamiya,

T. Saitoh,

A. Fujimori,

Kanta Ono,

A. Kakizaki,

T. Ishii,

M. Shirai,

T. Kamimura

Publication year - 1998

Publication title -

physical review. b, condensed matter

Language(s) - English

Resource type - Journals

eISSN - 1095-3795

pISSN - 0163-1829

DOI - 10.1103/physrevb.57.8845

Subject(s) - antiferromagnetism , inverse photoemission spectroscopy , angle resolved photoemission spectroscopy , photoemission spectroscopy , binding energy , condensed matter physics , spectral line , ferrimagnetism , fermi level , electronic band structure , spin (aerodynamics) , physics , electron , electronic structure , band gap , spectroscopy , materials science , atomic physics , magnetic field , magnetization , nuclear physics , thermodynamics , astronomy , quantum mechanics

have been studied by spin-integrated and spin-resolved photoemission spectroscopy and inverse-photoemission spectroscopy. The overall Fe 3d bandwidth in the photoemission spectra is 25–30 % narrowerthan the density of states ~DOS! predicted by rst-principles band-structure calculations and is accompanied byan intense tail on the high-binding-energy side, indicating the correlated nature of electrons in the Fe 3d band.Deviation from the band DOS is more signicant in Fe

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