Patent ID: 6344396
Filing Date: 2002-02-05
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 first and second opposing side surfaces and a top surface; (b) forming first and second insulative, tapered sidewall spacers on respective first and second opposing side surfaces of said layer stack, each of said sidewall spacers comprising a dielectric material having an as-deposited etch resistance; (c) selectively positioning a masking material over said first sidewall spacer on the first opposing side surface of said layer stack; (d) selectively treating the exposed second sidewall spacer on the second opposing side surface of said layer stack with impurities for reducing the etch resistance of said dielectric material from its as-deposited state to a more readily-etchable state; (e) removing the masking material from over said first sidewall spacer; (f) selectively removing the reduced etching resistance second sidewall spacer by an etching process; (g) selectively introducing dopant impurities of a second, opposite conductivity type into exposed portions of said substrate surface adjacent said first sidewall spacer and adjacent said second opposing side surface of said layer stack to form a pair of spaced-apart, heavily-doped regions in said substrate; (h) removing the first sidewall spacer by an etching process; (i) thermally treating said pair of spaced-apart, heavily-doped regions to form a pair of heavily-doped source/drain regions in said substrate each having a junction therewith at a predetermined depth below said substrate surface, a first one of said pair of heavily-doped source/drain regions being laterally spaced away from a respective proximal edge of said gate insulating layer by a distance substantially equal to the width of the lower end of said first sidewall spacer adjacent said substrate surface and a second one of said pair of heavily-doped source/drain regions extending to just beneath a respective proximal edge of said gate insulating layer; (j) selectively introducing second, opposite conductivity type dopant impurities into the exposed portion of said substrate surface intermediate said gate insulating layer and said first, laterally spaced-away, heavily-doped source/drain region to form a lightly- or moderately-doped extension region; and (k) thermally treating said lightly- or moderately-doped extension region to form a shallow-depth, lightly- or moderately-doped source/drain extension in said substrate extending from the proximal edge of the first, laterally spaced-away, heavily-doped source/drain region to just beneath the respective proximal edge of said gate insulating layer.