Abstract

In this paper, the impact of gate line edge roughness (LER) on two-dimensional carrier profiles in sub-50-nm n-MOSFETs was directly evaluated. Using scanning tunneling microscopy (STM), it was clearly observed that the roughness of extension edges induced by gate LER strongly depended on the implanted dose, pockets, and coimplantations. Impurity diffusion suppressed by a nitrogen (N) coimplant enhanced the roughness of the extension edges, which caused fluctuations in the device performance. The expected effect based on the carrier profiles measured by STM of the N coimplant on the electrical performance of the n-MOSFETs was verified.