Abstract: A method of determining the thickness of a thickness of a first layer of material in a semiconductor device using a reflectometer, the first layer of material being disposed outwardly from a second layer of material, the first and second layer of material both including silicon. The method includes generating at least one predicted behavior curve associated with a depth profile of an interface between the first and second layer of material, the predicted behavior curve including at least one expected optical measurement, the depth profile associated with the interface being present at a particular theoretical depth. The method also includes emitting light onto a surface of the semiconductor device. The method further includes collecting at least one optical measurement from portions of the emitted light that are reflected by the semiconductor device.

Abstract: A semiconductor device includes a substrate and an oxide layer disposed outwardly from the substrate. The semiconductor device also includes a polysilicon layer disposed outwardly from the oxide layer, the oxide layer having an interface between the oxide layer and the polysilicon layer, the interface having asperities such that the barrier potential between the polysilicon layer and the substrate is reduced in response to the asperities.

Abstract: A method of determining the thickness of a thickness of a first layer of material in a semiconductor device using a reflectometer, the first layer of material being disposed outwardly from a second layer of material, the first and second layer of material both including silicon. The method includes generating at least one predicted behavior curve associated with a depth profile of an interface between the first and second layer of material, the predicted behavior curve including at least one expected optical measurement, the depth profile associated with the interface being present at a particular theoretical depth. The method also includes emitting light onto a surface of the semiconductor device. The method further includes collecting at least one optical measurement from portions of the emitted light that are reflected by the semiconductor device.

Abstract: Silicon substrate isolation by epitaxial growth of silicon through windows in a mask made of silicon nitride (202) on silicon oxide (201) with the silicon oxide etched to undercut the silicon nitride; the mask is on a silicon substrate.

Abstract: Sidewall spacers extending above a silicon gate with the distance between the spacers exceeding the length of the gate are used to confine selective silicon growth of the gate and subsequent self-aligned silicidation.

Abstract: A plasma process is described which produces an undamaged and uncontaminated silicon surface by consuming silicon by continuous oxidation through a surface oxide layer and a simultaneous etch of the exposed silicon oxide surface. The surface silicon dioxide layer thickness is controlled as an equilibrium between oxide growth from oxygen atoms reaching the silicon surface and etching of the oxide surface. The silicon dioxide protects the silicon surface from plasma damage and from contamination.

Abstract: An embodiment of the instant invention is a method of fabricating a semiconductor device which includes a dielectric layer situated between a conductive structure and a semiconductor substrate, the method comprising the steps of: forming the dielectric layer (layer 14) on the semiconductor substrate (substrate 12); forming the conductive structure (structure 18) on the dielectric layer; doping the conductive structure with boron; and doping the conductive structure with a dopant which inhibits the diffusion of boron. The semiconductor device may be a PMOS transistor or a capacitor. Preferably, the conductive structure is a gate structure. The dielectric layer is, preferably, comprised of a material selected from the group consisting of: an oxide, an oxide/oxide stack, an oxide/nitride stack, and an oxynitride. Preferably, the dopant which inhibits the diffusion of boron comprises at least one group III or group IV element.