Cavity correlation function: Difference between revisions
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<math>y(r_{12})</math> is | The '''cavity correlation function''', <math>y(r_{12})</math>, is given by | ||
:<math>y(r) \equiv g(r) /e^{-\beta \Phi_{12}(r)}</math> | |||
:<math>y(r) \equiv {\mathrm{g}}(r) /e^{-\beta \Phi_{12}(r)}</math> | |||
where <math>g(r)</math> is the [[Pair distribution function | pair distribution function]], <math>\Phi_{12}(r)</math> | where <math>g(r)</math> is the [[Pair distribution function | pair distribution function]], <math>\Phi_{12}(r)</math> | ||
is the [[Intermolecular pair potential | pair potential]], and <math> \beta = 1(/k_B T) </math>, where <math>k_B</math> | is the [[Intermolecular pair potential | pair potential]], and <math> \beta := 1(/k_B T) </math>, where <math>k_B</math> | ||
is the [[Boltzmann constant]]. | is the [[Boltzmann constant]] and <math>T</math> is the [[temperature]]. | ||
[[Category: Integral equations]] | [[Category: Integral equations]] | ||
Latest revision as of 10:04, 28 February 2008
The cavity correlation function, , is given by
where is the pair distribution function, is the pair potential, and , where is the Boltzmann constant and is the temperature.
