Ramp model

The ramp model, proposed by Jagla, is described by:

${\displaystyle \Phi (r)=\left\{{\begin{array}{ll}\infty &{\rm {if}}\;r<\sigma \\W_{r}-(W_{r}-W_{a}){\frac {r-\sigma }{d_{a}-\sigma }}&{\rm {if}}\;\sigma \leq r\leq d_{a}\\W_{a}-W_{a}{\frac {r-d_{a}}{d_{c}-d_{a}}}&{\rm {if}}\;d_{a}<r\leq d_{c}\\0&{\rm {if}}\;r>d_{c}\end{array}}\right.}$

where ${\displaystyle \Phi (r)}$ is the intermolecular pair potential, ${\displaystyle W_{r}>0}$ and ${\displaystyle W_{a}<0}$.

Graphically, one has:

where the red line represents an attractive implementation of the model, and the green line a repulsive implementation.

Critical points

The liquid-vapour critical point is located at (Ref. 4)

${\displaystyle T_{c}^{*}=1.487\pm 0.003}$

${\displaystyle \rho _{c}\sigma ^{3}=0.103\pm 0.001}$

${\displaystyle p_{c}^{*}\simeq 0.042}$

The liquid-liquid critical point is located at (Ref. 4)

${\displaystyle T_{c}^{*}\simeq 0.378\pm 0.003}$

${\displaystyle \rho _{c}\sigma ^{3}\simeq 0.380\pm 0.002}$

${\displaystyle p_{c}^{*}/T_{c}^{*}\simeq 0.49\pm 0.01}$

See also

• Polyamorphism: Ramp model

References

1. E. A. Jagla "Core-softened potentials and the anomalous properties of water", Journal of Chemical Physics' 111, pp. 8980-8986 (1999)
2. E. Lomba, N. G. Almarza, C. Martin, C. McBride "Phase behaviour of attractive and repulsive ramp fluids: integral equation and computer simulation studies", Journal of Chemical Physics 126 244510 (2007)