Isentropic Compression of Solid CO2 at Megabar Pressures

IF 1.4 4区物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY

JETP Letters Pub Date : 2024-07-15 DOI:10.1134/S0021364024601374

V. D. Selemir, V. V. Brazhkin, K. D. Litasov, P. B. Repin, A. S. Korshunov, A. I. Bykov, G. V. Boriskov, N. I. Egorov, Yu. B. Kudasov, I. V. Makarov, D. A. Maslov, V. N. Pavlov, V. V. Platonov, I. S. Strelkov, O. M. Surdin, R. V. Kozabaranov, A. V. Bochkarev, A. A. Agapov, N. A. Belyaeva

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Abstract

Experiments on the dynamic isentropic compression of solid CO₂ samples by the megabar pressure induced by the superstrong magnetic field of an explosive magnetic generator have been performed with the X-ray diffraction detection of the state of the compressed samples. The generator operation is based on the fast compression of the initial magnetic flux in the cavity of the generator by a conducting cylindrical liner accelerated by the products of the explosion of a cylindrical explosive charge. Two points at pressures of 349 and 459 GPa on the compressibility diagram of CO₂ have been determined in the experiments, where the degree of compression ρ/ρ₀ of CO₂ has reached currently highest values of 3.90 and 4.02, respectively. Comparison has shown that theoretically calculated equations of states for crystal phases of CO₂ almost completely reproduce the experimental results, which confirms a high accuracy of theoretical predictions and the identity of the experimental and theoretical equations of states of CO₂ modifications stable at high pressures.

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等熵压缩百万巴压力下的固体二氧化碳

通过对压缩样品的状态进行 X 射线衍射检测，对爆炸磁性发生器的超强磁场引起的兆巴压力对固体 CO2 样品进行动态等熵压缩进行了实验。磁力发生器的工作原理是在圆柱形炸药爆炸产物的加速作用下，通过一个导电的圆柱形衬垫对发生器空腔中的初始磁通量进行快速压缩。实验确定了二氧化碳可压缩性图上压力分别为 349 和 459 GPa 的两个点，在这两个点上，二氧化碳的压缩度 ρ/ρ0 分别达到了目前的最高值 3.90 和 4.02。比较结果表明，二氧化碳晶体相的理论计算状态方程几乎完全重现了实验结果，这证实了理论预测的高准确性，以及实验和理论状态方程的一致性，即二氧化碳在高压下的改性是稳定的。

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来源期刊

JETP Letters 物理-物理：综合

CiteScore

2.40

自引率

30.80%

发文量

164

审稿时长

3-6 weeks

期刊介绍： All topics of experimental and theoretical physics including gravitation, field theory, elementary particles and nuclei, plasma, nonlinear phenomena, condensed matter, superconductivity, superfluidity, lasers, and surfaces.