The "ACFD-RPA" correlation energy functional has been widely applied to a
variety of systems to successfully predict energy differences, and less
successfully predict absolute correlation energies. Here we present a
parameter-free exchange-correlation kernel that systematically improves
absolute correlation energies, while maintaining most of the good numerical
properties that make the ACFD-RPA numerically tractable. The "RXH" kernel is
constructed to approximate the true exchange kernel via a carefully weighted,
easily computable radial averaging. Correlation energy errors of atoms with two
to eighteen electrons show a thirteenfold improvement over the RPA and a
threefold improvement over the related "PGG" kernel, for a mean absolute error
of 13mHa or 5%. The average error is small compared to all but the most
difficult to evaluate kernels. van der Waals C6 coefficients are less well
predicted, but still show improvements on the RPA, especially for highly
polarisable Li and Na