Gaussian overlap model: Difference between revisions

The Gaussian overlap model was developed by Bruce J. Berne and Philip Pechukas ^[1]and is given by Eq. 3 in the aforementioned reference:

${\displaystyle \Phi _{12}(\mathbf {u} _{1},\mathbf {u} _{2},\mathbf {r} )=\epsilon (\mathbf {u} _{1},\mathbf {u} _{2})\exp \left[{\frac {-r}{\sigma (\mathbf {u} _{1},\mathbf {u} _{2},{\hat {\mathbf {r} }})}}\right]^{n}}$

where ${\displaystyle n=2}$, ${\displaystyle \Phi _{12}(r)}$ is the intermolecular pair potential, ${\displaystyle \epsilon (\mathbf {u} _{1},\mathbf {u} _{2})}$ and ${\displaystyle \sigma (\mathbf {u} _{1},\mathbf {u} _{2},{\hat {\mathbf {r} }})}$ are angle dependent strength and range parameters, and ${\displaystyle {\hat {\mathbf {r} }}}$ is a unit vector. Not long after the introduction of the Gaussian overlap model Stillinger ^[2] proposed a stripped-down version of the model, known as the Gaussian core model. Note that as ${\displaystyle n\rightarrow \infty }$ this potential becomes the penetrable sphere model.

Equation of state

Main article: Equations of state for the Gaussian overlap model

Virial coefficients

Main article: Gaussian overlap model: virial coefficients

Phase diagram

The phase diagram of the Gaussian-core model has been calculated by Prestipino et al.^[3] while the solid-liquid phase equilibria has been calculated by Mausbach et al ^[4] using the GWTS algorithm.

Shear viscosity

^[5]

References

Related reading

• P. A. Monson and K. E. Gubbins "Equilibrium properties of the Gaussian overlap fluid. Monte Carlo simulation and thermodynamic perturbation theory" Journal of Physical Chemistry 87 pp. 2852-2858 (1983)
• Tomas Boublik "The gaussian overlap model again", Molecular Physics 67 pp. 1327-1336 (1989)
• Lindsey Ann Shall and S. A. Egorov "Structural and dynamical anomalies of a Gaussian core fluid: A mode-coupling theory study", Journal of Chemical Physics 132 184504 (2010)
• Peter Mausbach and Richard J. Sadus "Thermodynamic properties in the molecular dynamics ensemble applied to the Gaussian core model fluid", Journal of Chemical Physics 134 114515 (2011)
• Atsushi Ikeda and Kunimasa Miyazaki "Thermodynamic and structural properties of the high density Gaussian core model", Journal of Chemical Physics 135 024901 (2011)
• Atsushi Ikeda and Kunimasa Miyazaki "Slow dynamics of the high density Gaussian core model", Journal of Chemical Physics 135 054901 (2011)