原位超声干涉测量中键合校正方法在高压高温弹性波速测量中的再评价

IF 1.2 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY High Pressure Research Pub Date : 2022-07-03 DOI:10.1080/08957959.2022.2112677
M. Noda, T. Inoue, T. Tsuchiya, Y. Higo
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引用次数: 1

摘要

摘要为了精确测量弹性波速,提出了一种新的结合校正方法,该方法将同步加速器X射线原位技术和超声干涉测量技术结合Kawai型多砧装置同时测量弹性波速。使用文献数据和在高压和高温条件下获得的金的新弹性常数数据验证了新方法。使用新方法校正的弹性波速显示出比没有键校正和使用传统方法获得的弹性波速更低的值,这与通过原位布里渊散射测量和从头计算获得的数据集显示出良好的一致性。当样本长度为1时 在环境条件下,校正后的V P和V S分别比在12 GPa和900 K.结果表明,校正键合效应非常重要,尤其是当样品长度小于1时 毫米。
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Reassessment of a bond correction method for in situ ultrasonic interferometry on elastic wave velocity measurement under high pressure and high temperature
ABSTRACT A new bond correction method for simultaneous elastic wave velocity measurement of in situ synchrotron X-ray technique and ultrasonic interferometry combined with a Kawai type multi-anvil apparatus is developed to measure elastic wave velocity precisely. The new method was validated using data from the literature and new elastic constant data of gold obtained under high pressure and high-temperature conditions. Elastic wave velocities corrected using the new method show lower values than those obtained without bond correction and using the conventional method, which show good agreement with datasets by in situ Brillouin scattering measurement and ab initio calculation. When the sample length is 1 mm under ambient conditions, the corrected V P and V S became 3.7% and 1.6% lower, respectively, than values obtained without bond correction under 12 GPa and 900 K. Results show that correcting the bond effect is extremely important, especially when the sample length is less than 1 mm.
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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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