@article{oai:nagoya.repo.nii.ac.jp:00005540,
 author = {Takeuchi, Tsunehiro and Mizutani, Uichiro and Yamaguchi, Shinji and Fukunaga, Toshiharu and Mizuno, Takayuki and Tanaka, Nobuo},
 issue = {17},
 journal = {Physical Review B},
 month = {Nov},
 note = {The rhombic-triacontahedral-type quasicrystal (RT-QC), its (1/1, 1/1, 1/1) approximant (RT-1/1) and the Mackay-icosahedral-type quasicrystal (MI-QC) can be formed in the Al-Mg-Pd system. The radial distribution function RDF(r) spectra of the three compounds is derived from neutron diffraction experiments. Powdered x-ray diffraction Rietveld refinement is also carried out to determine the atomic structure of the RT-1/1, and the refined data are converted to the RDF(r). The interatomic distance of the Al-Pd pair in the RT-1/1 and RT-QC is found to be remarkably shortened relative to that calculated from the hard sphere model with Goldschmidt radii. In the MI-QC, the interatomic distance of the Al-Pd pair is further shortened. In addition, the shortening of the interatomic distance is also observed in the Mg-Pd pair. The valence band spectra studied by the x-ray photoemission spectroscopy and soft x-ray spectroscopy clearly show the formation of the bonding and antibonding states associated with the Al-Pd and Mg-Pd atomic pairs in the MI-QC. The results are consistent with the shortening of the interatomic distances derived from the structure analysis. The reason for the possession of the highest resistivity in the MI-QC among the three compounds is attributed to the formation of the covalent bonding between Al-Pd and Mg-Pd atomic pairs.},
 pages = {11345--11353},
 title = {Local atomic structure and the valence band structure  of the rhombic-triacontahedral quasicrystal, its 1/1 approximant, and the Mackay-icosahedral quasicrystal in the Al-Mg-Pd alloy system},
 volume = {58},
 year = {1998}
}