Strongly correlating liquids

Strongly correlating liquids are defined as those for whom ${\displaystyle R\geq 0.9}$ where (Eq. 6 ^[1])

${\displaystyle R={\frac {\langle \Delta {\mathcal {V}}\Delta U\rangle }{\sqrt {\langle (\Delta {\mathcal {V}})^{2}\rangle \langle (\Delta U)^{2}\rangle }}}}$

where ${\displaystyle \Delta U}$ represents fluctuations of the potential in the NVT ensemble and ${\displaystyle {\mathcal {V}}}$ is the virial (see also Virial pressure).

Isomorphs[edit]

^[2]

Lennard-Jones liquid[edit]

The liquid phase formed by the Lennard-Jones model is an example of a strongly correlating liquid^[3].

References[edit]

Related reading

• Nicholas P. Bailey, Ulf R. Pedersen, Nicoletta Gnan, Thomas B. Schrøder, and Jeppe C. Dyre "Pressure-energy correlations in liquids. II. Analysis and consequences", Journal of Chemical Physics 129 184508 (2008)
• Thomas B. Schrøder, Nicholas P. Bailey, Ulf R. Pedersen, Nicoletta Gnan, and Jeppe C. Dyre "Pressure-energy correlations in liquids. III. Statistical mechanics and thermodynamics of liquids with hidden scale invariance", Journal of Chemical Physics 131 234503 (2009)
• Trond S. Ingebrigtsen, Lasse Bøhling, Thomas B. Schrøder, and Jeppe C. Dyre "Communication: Thermodynamics of condensed matter with strong pressure-energy correlations", Journal of Chemical Physics 136 061102 (2012)