Abstract
The dielectric function of a uniform electron gas is studied on the basis of the dynamical equations which govern the response of the system to a weak external field. The deviations from the random-phase approximation caused by exchange and correlation effects are incorporated in a local-field correction which is related to the response of a certain two-particle correlation function. Using the equation of motion for the correlation function we extract the exact behavior of the local-field correction for large wave vectors or high frequencies. The high-frequency result is identical to the one obtained from the third frequency moment. For large wave vectors we find that the local-field correction tends to , being the value of the pair distribution function at . We also recover the result of Kimball, giving a relation between the pair distribution function and its radial derivative at .
- Received 15 April 1974
DOI:https://doi.org/10.1103/PhysRevB.10.3052
©1974 American Physical Society