HIGH-PRESSURE BRILLOUIN SCATTERING STUDY OF DENSE ARGON AND NITROGEN

Hochheimer HD.; Takesada M.; Weishaupt K.

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HIGH-PRESSURE BRILLOUIN SCATTERING STUDY OF DENSE ARGON AND NITROGEN

机译：浓氩和氮的高压布里渊散射研究

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We have measured the Brillouin shift as a function of hydrostatic pressure in dense argon and nitrogen at different constant temperatures. We show that for argon there is a linear relation between the index of refraction and the reduced density. A comparison of the sound velocities determined ultrasonically and from our Brillouin data shows a negative velocity dispersion. This is in agreement with theoretical predictions and measurements of the temperature dependence of the sound velocity along the vapor-pressure equilibrium curve using Brillouin scattering. The fact that the negative velocity dispersion increase with pressure at constant temperature is smaller at lower temperatures is, however, puzzling and cannot be explained within the framework of the above-mentioned theoretical model. (C) 1996 American Institute of Physics. [References: 31]

机译：我们已经测量了在不同的恒定温度下，致密氩气和氮气中布里渊位移作为静水压力的函数。我们表明，对于氩气，折射率与降低的密度之间存在线性关系。超声和我们的布里渊数据确定的声速的比较显示出负的速度色散。这与理论预测和使用布里渊散射沿着声压沿蒸气压力平衡曲线的温度依赖性的测量结果一致。然而，在较低温度下，恒定压力下负速度色散随压力增加而减小的事实令人费解，并且不能在上述理论模型的框架内进行解释。（C）1996年美国物理研究所。 [参考：31]

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《The Journal of Chemical Physics》 |1996年第2期|共5页
作者
Hochheimer HD.; Takesada M.; Weishaupt K.;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
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Sound-velocity; Kbar;

机译：声速;大;

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1. HIGH-PRESSURE BRILLOUIN SCATTERING STUDY OF DENSE ARGON AND NITROGEN [J] . Hochheimer HD., Takesada M., Weishaupt K. The Journal of Chemical Physics . 1996,第2期

机译：浓氩和氮的高压布里渊散射研究
2. Comment on “Brillouin scattering studies of liquid argon at high temperatures and high pressures” [ J. Chem. Phys. 129, 154503 (2008) ] [J] . Frédéric Datchi Journal of Chemical Physics . 2010,第1期

机译：评论“液化氩在高温高压下的布里渊散射研究” [J. Chem。物理129，154503（2008）]
3. Comment on "Brillouin scattering studies of liquid argon at hightemperatures and high pressures" [J. Chem. Phys. 129, 154503 (2008)] [J] . Frederic Datchi The Journal of Chemical Physics . 2010,第1期

机译：评论“液化氩在高温高压下的布里渊散射研究”。化学物理129，154503（2008）]
4. High-pressure brillouin study of rare-gas single crystalline argon (Ar) at pressures up to 4 GPa [C] . H. Shimizu, H. Tashiro, T. Kumazaki, International Conference on Raman Spectroscopy . 2000

机译：高压气体单晶氩（AR）高达4GPa的高压布里渊研究
5. Light scattering studies of two systems. I.~Surface plasmon enhanced Brillouin scattering in silver films: Double resonance effect. II.~Relation of anomalous Raman spectra of gallium-arsenide to metastable transitions of EL2 defects. [D] . Robertson, William Michael. 1988

机译：两种系统的光散射研究。 I.〜表面等离激元增强了银膜中的布里渊散射：双重共振效应。 II。〜砷化镓的拉曼光谱异常与EL2缺陷的亚稳转变的关系。
6. Label-free histological imaging of tissues using Brillouin light scattering contrast [O] . Seungmi Ryu, Nicola Martino, Sheldon J. J. Kwok, 2021

机译：使用布里渊光散射对比的组织无标记的组织学成像
7. Comment on "Neutron brillouin scattering study of collective dynamics in a dense He-Ne gaseous mixture" [O] . Padró i Cárdenas Joan Àngel, Anento Moreno Napoleón, Canales Gabriel Manel 2001

机译：评论“在密集的氦氖气体混合物中中子布里洛因散射的集体动力学研究”
8. Rayleigh-Brillouin scattering for high-pressure gas temperature measurements [R] . Seasholtz, Richard G. 1991

机译：Rayleigh-Brillouin散射用于高压气体温度测量

HIGH-PRESSURE BRILLOUIN SCATTERING STUDY OF DENSE ARGON AND NITROGEN

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