Kinetic Analysis of Pressure-Induced Phase Transition by Means of Raman Scattering
スポンサーリンク
概要
- 論文の詳細を見る
A kinetic analysis of a pressure-induced phase transition in solid was attempted by repeatedly measuring peak intensities of Raman bands of Hgl_2 with a period of 30 milliseconds during the phase transition which was induced by a pressure jump and driven at a constant pressure in a diamond anvil cell. The analysis was made on the assumption that the degree of transformation was proportional to the peak intensity corresponding to the phase formed. The results show that the higher the excess pressure the faster the transition proceeds, and are well fitted to the Avrami equation.
- 社団法人応用物理学会の論文
- 1984-08-20
著者
-
Takano Kaoru
Institute For Optical Research Tokyo Kyoiku University
-
Wakatsuki Masao
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