Orbital-dependent modifications of electronic structure across
  magneto-structural transition in BaFe2As2

A. Chainani; C.-T. Chen; K. Ishizaka; K. Ohgushi; M. Okawa; N. Katayama; R. Kadota; S. Hüfner; S. Shin; S. Watanabe; T. Kiss; T. Oguchi; T. Shimojima; T. Togashi; X.-Y. Wang; Y. Ishida

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Orbital-dependent modifications of electronic structure across magneto-structural transition in BaFe2As2

Authors: A. Chainani
C.-T. Chen
K. Ishizaka
K. Ohgushi
M. Okawa
N. Katayama
R. Kadota
S. Hüfner
S. Shin
S. Watanabe
T. Kiss
T. Oguchi
T. Shimojima
T. Togashi
X.-Y. Wang
Y. Ishida
Publication date: 5 January 2010
Publisher: 'American Physical Society (APS)'
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Abstract

Laser angle-resolved photoemission spectroscopy (ARPES) is employed to investigate the temperature (T) dependence of the electronic structure in BaFe2As2 across the magneto-structural transition at TN ~ 140 K. A drastic transformation in Fermi surface (FS) shape across TN is observed, as expected by first-principles band calculations. Polarization-dependent ARPES and band calculations consistently indicate that the observed FSs at kz ~ pi in the low-T antiferromagnetic (AF) state are dominated by the Fe3dzx orbital, leading to the two-fold electronic structure. These results indicate that magneto-structural transition in BaFe2As2 accompanies orbital-dependent modifications in the electronic structure.Comment: 13 pages, 4 figures. accepted by Physical Review Letter

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