Raman-Scattering Study of Doping Effects on the Structural Phase Transitions under Hydrostatic Pressures in CuGeO_3 : Condensed Matter: Electronic Properties, etc.
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概要
- 論文の詳細を見る
Raman-scattering and optical-microscopy studies have been carried out in pure and doped CuGeO_3 crystals under strictly hydrostatic pressure up to about 10 GPa at room temperature by using diamond anvil cell. Anomalies of the mode Gruneisen parameters of the low-frequency phonons are found. In heavily Mg- and Ni-doped crystals successive flrst-order structural phase transitions of the normal phase (phase I)⇾the pale-green phase (phase II)⇾the green phase (phase IV) are observed as the hydrostatic pressure is increased in the first run. The critical pressure of the second phase transition between phases II and IV strongly depends on the dopant concentration, while it does not occur in Si-doped crystal. Upon releasing pressure the samples are transformed from phase IV to the deep blue phase (phase III) which is quenchable down to ambient pressure. Phases III and IV are identified as the phases which probably possess pyroxene structures and have already been reported to emerge in pure crystal only under quasihydrostatic pressure.
- 社団法人日本物理学会の論文
- 2001-01-15
著者
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Masuda Takatsugu
Department Of Advanced Materials Science The University Of Tokyo
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TANOKURA Yoshiko
Department of Physics,Sophia University
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Sekine Tomoyuki
Department Of Physics Faculty Of Science And Technology Sophia University
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Tanokura Yoshiko
Department Of Physics Faculty Of Science And Technology Sophia University
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Tanokura Yoshiko
Department Of Physics Sophia University
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SEKlNE Tomoyuki
Department of Physics,Sophia University
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UJI Ayako
Department of Physics,Sophia University
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OONO Yoshiyuki
Department of Physics,Sophia University
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UCHlNOKURA Kunimitsu
Department of Advanced Materials Science,The University of Tokyo
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Uji Ayako
Department Of Physics Sophia University:(present)canon Inc.
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Seklne Tomoyuki
Department Of Physics Sophia University
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Uchlnokura Kunimitsu
Department Of Advanced Materials Science The University Of Tokyo
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