A Study of Highly Symmetrical Crystal Structures, Commonly Seen in High-Speed Phase-Change Materials, Using Synchrotron Radiation
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概要
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The crystal structures of phase-change materials. GeTe-Sb_2Te_3 and Ag-In-Sb-Te compounds, crystallized by laser irradiation, have been investigated for several years. These investigations revealed that these two compounds crystallize into a single phase with a cubic or a pseudo-cubic structure as the structural unit, and that their constituent atoms tend to randomly occupy the lattice sites. This time, the structure of Au_<25>Ge_4Sn_<11>Te_<60> has been investigated using a large Debye-Sherrer camera installed in BL02B2 at SPring-8. This compound crystallizes into a single phase like the others do, and its crystal has a simple cubic structure with atoms of Au. Ge. Sn or Te randomly occupying the 1(a) site in the Pm3m space group. A cubic structure is isotropic in symmetry. The characteristics commonly seen in these high-speed phase-change materials, i.e. crystallization into a single phase, isotropic symmetry, and random occupation, suggest that atomic migration length becomes so short that crystallization is completed very rapidly. This means that the time taken to erase a record can be markedly shortened.
- 社団法人応用物理学会の論文
- 2002-03-30
著者
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YAMADA Noboru
Optical Devices Research Laboratory, Matsushita Electric Industrial Co., Ltd.
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MATSUNAGA Toshiyuki
Characterization Technology Group, Matsushita Technoresearch, Inc.
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Matsunaga T
Characterization Technology Group Matsushita Technoresearch. Inc.
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