# Thermodynamic metric geometry of the two-state ST2 model for supercooled   water

**Authors:** Peter Mausbach, Helge-Otmar May, and George Ruppeiner

arXiv: 1907.13192 · 2019-09-04

## TL;DR

This paper uses thermodynamic geometry to analyze the supercooled water model ST2, providing evidence for solid-like structures in the LDL state through the Ricci curvature scalar, and explores critical phenomena and phase transition lines.

## Contribution

It introduces a thermodynamic geometric approach to identify solid-like structures in supercooled water models and characterizes critical behavior and phase transition lines.

## Key findings

- Positive Ricci curvature in LDL supports solid-like structures
- Critical exponents and Widom line are computed
- Large critical regime observed in mean field analysis

## Abstract

Liquid water has anomalous liquid properties, such as its density maximum at 4\degree C. An attempt at theoretical explanation proposes a liquid-liquid phase transition line in the supercooled liquid state, with coexisting low-density (LDL) and high-density (HDL) liquid states. This line terminates at a critical point. It is assumed that the LDL state possesses mesoscopic tetrahedral structures that give it solid-like properties, while the HDL is a regular random liquid. But the short-lived nature of these solid-like structures make them difficult to detect directly. We take a thermodynamic approach instead, and calculate the thermodynamic Ricci curvature scalar $R$ in the metastable liquid regime. It is believed that solid-like structures signal their presence thermodynamically by a positive sign for $R$, with a negative sign typically present in less organized fluid states. Using thermodynamic data from ST2 computer simulations fit to a mean field (MF) two state equation of state, we find significant regimes of positive $R$ in the LDL state, supporting the proposal of solid-like structures in liquid water. In addition, we review the theory, compute critical exponents, demonstrate the large reach of the MF critical regime, and calculate the Widom line using $R$.

## Full text

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## Figures

14 figures with captions in the complete paper: https://tomesphere.com/paper/1907.13192/full.md

## References

86 references — full list in the complete paper: https://tomesphere.com/paper/1907.13192/full.md

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Source: https://tomesphere.com/paper/1907.13192