Ornstein-Zernike relation from the grand canonical distribution function

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Defining the local activity by

where , and is the Boltzmann constant. Using those definitions the grand canonical partition function can be written as


.


By functionally-differentiating with respect to , and utilizing the mathematical theorem concerning the functional derivative,


,


we get the following equations with respect to the density pair correlation functions.


,


.


A relation between and can be obtained after some manipulation as,



Now, we define the direct correlation function by an inverse relation of Eq. (\ref{deltarho}),



Inserting Eqs. (\ref{deltarho}) and (\ref{deltalnz}) into the chain-rule theorem of functional derivatives,


,


one obtains the Ornstein-Zernike relation. Thus the Ornstein-Zernike relation is, in a sense, a differential form of the partition function.