Singular Structure and Enhanced Friedel Oscillations in the Two-Dimensional Electron Gas
Abstract
We calculate the leading order corrections (in rs) to the static polarization *(q,0,), with dynamically screened interactions, for the two-dimensional electron gas. The corresponding diagrams all exhibit singular logarithmic behavior in their derivatives at q=2 kF and provide significant enhancement to the proper polarization particularly at low densities. At a density of rs=3, the contribution from the leading order fluctuational diagrams exceeds both the zeroth order (Lindhard) response and the self-energy and exchange contributions. We comment on the importance of these diagrams in two-dimensions and make comparisons to an equivalent three-dimensional electron gas; we also consider the impact these finding have on *(q,0) computed to all orders in perturbation theory.
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