C..39 THGFCO:

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C..39 `THGFCO`:

Density and gradient dependent first row exchange-correlation functional. See reference [26] for more details.

$\begin{dmath} K= \sum _{i=1}^{n}\omega_{{i}}R_{{i}}S_{{i}}X_{{i}}Y_{{i}} ,\end{dmath}$ where $\begin{dmath} n=20 ,\end{dmath}$ $\begin{dmath} R_{{i}}= \left( \rho_{\alpha} \right) ^{t_{{i}}}+ \left( \rho_{\beta} \right) ^{t_{{i}}} ,\end{dmath}$ $\begin{dmath} S_{{i}}= \left( {\frac {\rho_{\alpha}-\rho_{\beta}}{\rho}} \right) ^{2 \,u_{{i}}} ,\end{dmath}$ $\begin{dmath} X_{{i}}=1/2\,{\frac { \left( \sqrt {\sigma_{\alpha \alpha}} \right... ...{\sigma_{\beta \beta}} \right) ^{v_{{i}}}}{{\rho} ^{4/3\,v_{{i}}}}} ,\end{dmath}$ $\begin{dmath} Y_{{i}}= \left( {\frac {\sigma_{\alpha \alpha}+\sigma_{\beta \beta... ...a}}\sqrt {\sigma_{\beta \beta}}}{{\rho}^{8/3 }}} \right) ^{w_{{i}}} ,\end{dmath}$ $\begin{dmath} t = [7/6,4/3,3/2,5/3,4/3,3/2,5/3,{\frac {11}{6}},3/2,5/3,{\frac {11}{6}},2, 3/2,5/3,{\frac {11}{6}},2,7/6,4/3,3/2,5/3] ,\end{dmath}$ $\begin{dmath} u = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1] ,\end{dmath}$ $\begin{dmath} v = [0,0,0,0,1,1,1,1,2,2,2,2,0,0,0,0,0,0,0,0] ,\end{dmath}$ $\begin{dmath} w = [0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0] \end{dmath}$ and $\begin{dmath} \omega = [- 0.962998, 0.860233,- 1.54092, 0.381602,- 0.210208, 0.3... ...41,- 0.0568280, 0.0288585, 0.368326,- 0.328799,- 1.22595, 1.36412] .\end{dmath}$ To avoid singularities in the limit $\rho_{\bar{s}}\rightarrow 0$ $\begin{dmath} G= \sum _{i=1}^{n}1/2\,\omega_{{i}} \left( \rho_{s} \right) ^{t_{{... ...{i}}} \left( \left( \rho_{s} \right) ^{4/3\,v_{{i}}} \right) ^{-1} .\end{dmath}$

molpro@molpro.net
Oct 10, 2007