Hard core Yukawa potential: Difference between revisions

The hard core Yukawa potential has two forms, the attractive Yukawa potential:

${\displaystyle \Phi \left(r\right)=\left\{{\begin{array}{lll}\infty &;&r<\sigma \\-\left({\frac {\epsilon \sigma }{r}}\right)\exp \left[-\kappa \left({\frac {r}{\sigma }}-1\right)\right]&;&r\geq \sigma \end{array}}\right.}$

and the repulsive form

${\displaystyle \Phi \left(r\right)=\left\{{\begin{array}{lll}\infty &;&r<\sigma \\\left({\frac {\epsilon \sigma }{r}}\right)\exp \left[-\kappa \left({\frac {r}{\sigma }}-1\right)\right]&;&r\geq \sigma \end{array}}\right.}$

where ${\displaystyle \Phi \left(r\right)}$ is the intermolecular pair potential, ${\displaystyle r}$ is the distance, ${\displaystyle \sigma }$ is the hard diameter, ${\displaystyle \epsilon }$ is the energy well depth (${\displaystyle \epsilon >0}$), and ${\displaystyle \kappa }$ is a parameter that controls the interaction range (${\displaystyle \kappa >0}$).

The repulsive form has been used to study charge-stabilised colloid-colloid interactions.

Critical point

For the attractive form of the potential, from a study of the law of corresponding states, one has (Ref. 1 Eq. 3)

${\displaystyle P_{c}=0.0228+0.0742T_{c}}$

and (Ref. 1 Eq. 4)

${\displaystyle \rho _{c}=0.2534+0.071{\frac {1}{T_{c}}}}$.

The repulsive form of the potential has no critical point.

Triple points

1. Fouad El Azhar, Marc Baus, Jean-Paul Ryckaert and Evert Jan Meijer "Line of triple points for the hard-core Yukawa model: A computer simulation study", Journal of Chemical Physics 112 pp. 5121- (2000)

Phase diagram

Main article: Phase diagram of the Yukawa potential

References

1. Pedro Orea and Yurko Duda "On the corresponding states law of the Yukawa fluid", Journal of Chemical Physics 128 134508 (2008)