Litcius/Paper detail

Manifestations of metastable criticality in the long-range structure of model water glasses

Thomas E. Gartner, Salvatore Torquato, Roberto Car, Pablo G. Debenedetti

2021Nature Communications27 citationsDOIOpen Access PDF

Abstract

Much attention has been devoted to water's metastable phase behavior, including polyamorphism (multiple amorphous solid phases), and the hypothesized liquid-liquid transition and associated critical point. However, the possible relationship between these phenomena remains incompletely understood. Using molecular dynamics simulations of the realistic TIP4P/2005 model, we found a striking signature of the liquid-liquid critical point in the structure of water glasses, manifested as a pronounced increase in long-range density fluctuations at pressures proximate to the critical pressure. By contrast, these signatures were absent in glasses of two model systems that lack a critical point. We also characterized the departure from equilibrium upon vitrification via the non-equilibrium index; water-like systems exhibited a strong pressure dependence in this metric, whereas simple liquids did not. These results reflect a surprising relationship between the metastable equilibrium phenomenon of liquid-liquid criticality and the non-equilibrium structure of glassy water, with implications for our understanding of water phase behavior and glass physics. Our calculations suggest a possible experimental route to probing the existence of the liquid-liquid transition in water and other fluids.

Topics & Concepts

MetastabilityPolyamorphismCriticalityCritical point (mathematics)Phase transitionAmorphous solidChemical physicsMaterials sciencePhase (matter)Condensed matter physicsMolecular dynamicsCritical phenomenaThermodynamicsPhase diagramGlass transitionStatistical physicsNon-equilibrium thermodynamicsVitrificationSimple (philosophy)Water modelPhysicsAmorphous metalMaterial Dynamics and PropertiesAdvanced Physical and Chemical Molecular InteractionsPickering emulsions and particle stabilization