Phase transitions of ScOOH under high pressure

IF 1.2 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY
Yoshiaki Ito, O. Ikeda, Rintaro Ban, T. Kubota, T. Sakamaki, T. Kuribayashi, A. Suzuki
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引用次数: 2

Abstract

ABSTRACT In-situ X-ray diffraction measurements of ScOOH were conducted under high pressure and temperature conditions up to 11 GPa and 900 K to understand its phase transitions. As the pressure increased, α-ScOOH, InOOH-type ScOOH, and YbOOH-type ScOOH were observed. The experimental results indicate that the boundaries between α-ScOOH and InOOH-type ScOOH, and between InOOH-type and YbOOH-type ScOOH are represented by the following linear equations: P(GPa) = (0.0009 ± 0.0015) × [T(K) – 700] + 4.33 ± 0.04 and P(GPa) = (–0.0029 ± 0.0002) × [T(K) – 800] + 8.1 ± 0.3, respectively. By using a least-squares fit of the second-order Birch–Murnaghan equation of state (EoS) to the experimental compression data, the EoS parameters of the three phases of ScOOH at 400 K were obtained. The volume change of the transition from α-ScOOH to InOOH-type ScOOH is ∼3.9% at 4 GPa and 400 K, while the volume change of the transition from InOOH-type to YbOOH-type ScOOH is ∼7.6% at 9 GPa and 400 K.
高压下ScOOH的相变
在高达11 GPa和900 K的高压和高温条件下,对ScOOH进行了原位x射线衍射测量,以了解其相变。随着压力的增加,出现α-ScOOH、inooh型ScOOH和yboo型ScOOH。实验结果表明,α-ScOOH与inooh型ScOOH、inooh型ScOOH与ybooh型ScOOH之间的边界分别为:P(GPa) =(0.0009±0.0015)× [T(K) - 700] + 4.33±0.04和P(GPa) =(- 0.0029±0.0002)× [T(K) - 800] + 8.1±0.3。利用二阶Birch-Murnaghan状态方程(EoS)对实验压缩数据进行最小二乘拟合,得到了400 K时ScOOH三相的EoS参数。在4 GPa和400 K条件下,α-ScOOH向inoh型ScOOH转变的体积变化为~ 3.9%,而在9 GPa和400 K条件下,inoh型ScOOH向yboo型ScOOH转变的体积变化为~ 7.6%。
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来源期刊
High Pressure Research
High Pressure Research 物理-物理:综合
CiteScore
3.80
自引率
5.00%
发文量
15
审稿时长
2 months
期刊介绍: High Pressure Research is the leading journal for research in high pressure science and technology. The journal publishes original full-length papers and short research reports of new developments, as well as timely review articles. It provides an important forum for the presentation of experimental and theoretical advances in high pressure science in subjects such as: condensed matter physics and chemistry geophysics and planetary physics synthesis of new materials chemical kinetics under high pressure industrial applications shockwaves in condensed matter instrumentation and techniques the application of pressure to food / biomaterials Theoretical papers of exceptionally high quality are also accepted.
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