Patent ID: 6472283
Filing Date: 2002-10-29
Classification: H01L

Abstract:
A method of manufacturing a semiconductor device, which method comprises the sequential steps of:(a) providing a device precursor structure comprising a semiconductor substrate of a first conductivity type and a layer stack formed on a portion of a surface of said substrate, said layer stack comprising: i. a thin gate insulating layer in contact with said substrate surface; and ii. a gate electrode layer formed on said gate insulating layer, said layer stack comprising a pair of opposing side surfaces and a top surface; (b) forming a first pair of insulative, tapered sidewall spacers on each of said pair of opposing side surfaces, said first pair of sidewall spacers comprising a first dielectric material in an as-deposited, undensified state, the first pair of sidewall spacers having lower ends on the surfaces of the substrate; (c) thermally treating said first pair of sidewall spacers to convert said first dielectric material from its as-deposited, undensified state to an annealed, densified state; (d) forming a second pair of insulative, tapered sidewall spacers on each of said first pair of sidewall spacers, said second sidewall spacers comprising a second dielectric material in an as-deposited, undensified state, the second pair of sidewall spacers having lower ends on the surface of the substrate; (e) selectively introducing dopant impurities of a second, opposite conductivity type into exposed portions of said substrate surface adjacent said first and second pairs of sidewall spacers to form a pair of spaced-apart heavily-doped implants in said substrate; (f) selectively removing the as-deposited, undensified second pair of sidewall spacers by an etching process; (g) thermally treating said pair of spaced-apart, heavily-doped implants to form a pair of heavily-doped source/drain junction regions in said substrate at a predetermined depth below said substrate surface, each of said heavily-doped source/drain junction regions being laterally spaced from a respective proximal edge of said gate insulting layer by a distance substantially equal to the combined width of said lower ends of said first and second pairs of sidewall spacers; (h) introducing second, opposite conductivity type dopant impurities into exposed portions of said substrate surface intermediate said gate insulating layer and said heavily-doped source/drain junction regions to form lightly-or moderately doped source/drain extension implants, and (i) thermally treating said lightly- or moderately-doped source/drain extension implants to form a pair of shallow-depth, lightly- or moderately-doped source/drain extensions in said substrate, each of said shallow-depth, lightly-doped extensions extending from a proximal edge of a respective source/drain junction region to beneath a respective proximal edge of said gate insulating layer.