高压下大量过冷水液-液转变的实验观察

Experimental observation of the liquid-liquid transition in bulk supercooled water under pressure.

作者信息

Kim Kyung Hwan, Amann-Winkel Katrin, Giovambattista Nicolas, Späh Alexander, Perakis Fivos, Pathak Harshad, Parada Marjorie Ladd, Yang Cheolhee, Mariedahl Daniel, Eklund Tobias, Lane Thomas J, You Seonju, Jeong Sangmin, Weston Matthew, Lee Jae Hyuk, Eom Intae, Kim Minseok, Park Jaeku, Chun Sae Hwan, Poole Peter H, Nilsson Anders

机构信息

Department of Physics, AlbaNova University Center, Stockholm University, SE-10691 Stockholm, Sweden.

Department of Chemistry, Pohang University of Science and Technology (POSTECH), Pohang 37673, Republic of Korea.

出版信息

Science. 2020 Nov 20;370(6519):978-982. doi: 10.1126/science.abb9385.

DOI:10.1126/science.abb9385

PMID:33214280

Abstract

We prepared bulk samples of supercooled liquid water under pressure by isochoric heating of high-density amorphous ice to temperatures of 205 ± 10 kelvin, using an infrared femtosecond laser. Because the sample density is preserved during the ultrafast heating, we could estimate an initial internal pressure of 2.5 to 3.5 kilobar in the high-density liquid phase. After heating, the sample expanded rapidly, and we captured the resulting decompression process with femtosecond x-ray laser pulses at different pump-probe delay times. A discontinuous structural change occurred in which low-density liquid domains appeared and grew on time scales between 20 nanoseconds to 3 microseconds, whereas crystallization occurs on time scales of 3 to 50 microseconds. The dynamics of the two processes being separated by more than one order of magnitude provides support for a liquid-liquid transition in bulk supercooled water.

摘要

我们使用红外飞秒激光对高密度非晶冰进行等容加热，将其加热到205±10开尔文的温度，从而在压力下制备了过冷液态水的块状样品。由于在超快加热过程中样品密度得以保留，我们能够估算出高密度液相中的初始内压为2.5至3.5千巴。加热后，样品迅速膨胀，我们用飞秒X射线激光脉冲在不同的泵浦-探测延迟时间捕捉了由此产生的减压过程。发生了一种不连续的结构变化，其中低密度液态区域在20纳秒至3微秒的时间尺度上出现并生长，而结晶则发生在3至50微秒的时间尺度上。这两个过程的动力学被一个多数量级分开，为块状过冷水中的液-液转变提供了支持。

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高压下大量过冷水液-液转变的实验观察

Experimental observation of the liquid-liquid transition in bulk supercooled water under pressure.

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