Liquid-liquid phase transition in compressed hydrogen from first-principles simulations.

Scandolo S

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Liquid-liquid phase transition in compressed hydrogen from first-principles simulations.

机译：从第一性原理模拟得出压缩氢气中的液相-液相转变。

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The properties of compressed liquid hydrogen, the most abundant fluid in the universe, have been investigated by means of first-principles molecular dynamics at pressures between 75 and 175 GPa and temperatures closer to the freezing line than so far reported in shock-wave experiments. Evidence for a liquid-liquid transition between a molecular and a dissociated phase is provided. The transition is accompanied by a 6% increase in density and by metallization. This finding has important implications for our understanding of the interiors of giant planets and supports predictions of a quantum fluid state at low temperatures.

机译：压缩液态氢是宇宙中最丰富的流体，其特性是通过第一性原理在75至175 GPa的压力和比冲击波实验更接近冰点的温度下进行的分子动力学研究的。提供了分子相与离解相之间的液-液过渡的证据。这种转变伴随着密度增加了6％，并伴随着金属化。这一发现对我们对巨型行星内部的理解具有重要意义，并支持对低温下量子流体状态的预测。

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《Proceedings of the National Academy of Sciences of the United States of America》 |2003年第6期|P.3051-3053|共3页
作者
Scandolo S;
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作者单位

Princeton Materials Institute and Department of Chemistry, Princeton University, Princeton, NJ 08544.;

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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类自然科学总论;
关键词
Liquid substance; Hydrogen; prediction; wave; 氢;

机译：液体物质;氢;预测;波;氢;
入库时间 2022-08-18 00:46:29

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1. First-order liquid-liquid phase transition in compressed hydrogen and critical point [J] . Tian Chunling, Liu Fusheng, Yuan Hongkuan, The Journal of Chemical Physics . 2019,第20期

机译：压缩氢和临界点中的一阶液液相过渡
2. Structure of liquid phosphorus: A liquid-liquid phase transition via constant-pressure first-principles molecular dynamics [J] . Tetsuya Morishita Computer physics communications . 2001,第1a3期

机译：液磷的结构：通过恒压第一原理分子动力学的液-液相转变
3. First-order Liquid-liquid Phase Transition In Compressed Nitrogen [J] . Brian Boates, Stanimir A. Bonev Physical review letters . 2009,第1期

机译：压缩氮中的一阶液-液相转变
4. Ab initio Studies of Phase Transitions and Metallization of Compressed Hydrogen [C] . S. A. Bonev, E. Schwegler, T. Ogitsu, Advances in Computational Methods in Sciences and Engineering 2005 vol.4B; Lecture Series on Computer and Computational Sciences; vol.4B . 2005

机译：从头开始研究压缩氢的相变和金属化
5. Theoretical and Computational Studies of Condensed-Phase Phenomena: The Origin of Biological Homochirality, and the Liquid-Liquid Phase Transition in Network-Forming Fluids. [D] . Ricci, Francesco. 2016

机译：固相现象的理论和计算研究：生物同手性的起源，以及网络形成流体中的液相转变。
6. Liquid–liquid phase transition in compressed hydrogen from first-principles simulations [O] . Sandro Scandolo 2003

机译：第一性原理模拟压缩氢气中的液相-液相转变
7. Liquid–liquid phase transition in compressed hydrogen from first-principles simulations [O] . Scandolo, Sandro 2003

机译：第一性原理模拟压缩氢气中的液相-液相转变
8. Evidence for Liquid-Liquid Phase Transitions in the Transition Metals [R] . Ross, M., Errandonea, D., Boehler, R. 2008

机译：过渡金属中液 - 液相变的证据

Liquid-liquid phase transition in compressed hydrogen from first-principles simulations.

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