Hemmer and Stell model: Difference between revisions

Latest revision as of 14:57, 17 July 2008

The Hemmer and Stell model intermolecular pair potential, $\Phi _{12}(r)$ , is given by (Ref. 1 Eq. 2, Ref. 2 Eq. 1-3):

\Phi _{12}(r)=\Phi _{12}(r)_{\mathrm {repulsive} }+\Phi _{12}(r)_{\mathrm {attractive} }

where a short range piece-wise potential

\Phi _{12}(r)_{\mathrm {repulsive} }=\left\{{\begin{array}{ll}\infty &{\rm {if}}\;r<d\\V_{0}\left({\frac {1-(r-d)}{\lambda d}}\right)&{\rm {if}}\;d<r<d(1+\lambda )\\0&{\rm {if}}\;d(1+\lambda )<r\end{array}}\right.

where $r:=|\mathbf {r} _{1}-\mathbf {r} _{2}|$ , $d$ is the hard core radius, along with a long-range attractive potential;

\Phi _{12}(r)_{\mathrm {attractive} }=-a\gamma \exp(-\gamma r)

where $a$ is a positive constant.

@@ Line 1: / Line 1: @@
 {{Stub-general}}
-The '''Hemmer and Stell model''' [[intermolecular pair potential]], <math>\Phi(r)</math>, is given by  (Ref. 1 Eq. 2, Ref. 2 Eq. 1-3):
+The '''Hemmer and Stell model''' [[intermolecular pair potential]], <math>\Phi_{12}(r)</math>, is given by  (Ref. 1 Eq. 2, Ref. 2 Eq. 1-3):
-:<math>\Phi(r) = \Phi(r)_{\mathrm {repulsive}} + \Phi(r)_{\mathrm{attractive}}</math>
+:<math>\Phi_{12}(r) = \Phi_{12}(r)_{\mathrm {repulsive}} + \Phi_{12}(r)_{\mathrm{attractive}}</math>
 where a short range piece-wise potential
 :<math>
-\Phi(r)_{\mathrm {repulsive}} = \left\{
+\Phi_{12}(r)_{\mathrm {repulsive}} = \left\{
 \begin{array}{ll}
 \infty & {\rm if} \; r < d \\
@@ Line 14: / Line 14: @@
 \end{array} \right.
 </math>
-where <math>d</math> is the hard core radius, along with a long-range attractive potential;
+where  <math>r := |\mathbf{r}_1 - \mathbf{r}_2|</math>, <math>d</math> is the hard core radius, along with a long-range attractive potential;
-:<math>\Phi(r)_{\mathrm{attractive}} = -a\gamma \exp (-\gamma r)</math>
+:<math>\Phi_{12}(r)_{\mathrm{attractive}} = -a\gamma \exp (-\gamma r)</math>
 where <math>a</math> is a positive constant.