Detection of a Pressure-Induced Phase Transition in a Diamond Anvil Cell
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概要
- 論文の詳細を見る
A method is described for detecting a phase transition occurring at high pressure in a diamond anvil cell, where pressure is evaluated by the ruby fluorescence method. The generated pressure versus cell load curve shows a plateau, which is caused by the volume change arising from change in the phase. Existence of a phase transition at each plateau was confirmed by observing concurrent changes in several physical properties, using samples for which data are available for their phase transition. The transition pressures deduced from the plateaus agree with the established data within reasonable errors. Newly determined phase transition pressures are also described as application of the present method.
- 社団法人応用物理学会の論文
- 1993-03-15
著者
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Takano Kaoru
Institute of Materials Science, University of Tsukuba
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Wakatsuki Masao
Institute of Materials Science, University of Tsukuba
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Takano K
Univ. Tsukuba
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Takano Kaoru
Institute For Optical Research Tokyo Kyoiku University
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SHINO Katsuya
Institute of Materials Science, University of Tsukuba
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IZAWA Atushi
Institute of Materials Science, University of Tsukuba
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MIYAHARA Masahisa
Institute of Materials Science, University of Tsukuba
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Shino Katsuya
Institute Of Materials Science University Of Tsukuba
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Wakatsuki Masao
Institute Of Materials Science University Of Tsukuba
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Izawa Atushi
Institute Of Materials Science University Of Tsukuba
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Miyahara Masahisa
Institute Of Materials Science University Of Tsukuba
関連論文
- New High-Pressure Phases of Carbon
- Corner Rounding of Crystals Growing at High Pressure
- Detection of a Pressure-Induced Phase Transition in a Diamond Anvil Cell
- Visual Observation of a Pressure-Driven Crystal Growth
- Formation and Growth of Diamond-For Understanding and Better Control of The Process
- Kinetic Analysis of Pressure-Induced Phase Transition by Means of Raman Scattering
- Simulation Study of Equation of State of Simple Liquid by the Use of Monodisperse Latex
- Kinetic Analysis of Pressure-Induced Phase Transition by Means of Raman Scattering