Showing papers by "Errol Antonio C. Sanchez published in 2011"

Method and apparatus for the selective deposition of epitaxial germanium stressor alloys

Abstract: A method and apparatus for forming heterojunction stressor layers is described. A germanium precursor and a metal precursor are provided to a chamber, and an epitaxial layer of germanium-metal alloy formed on the substrate. The metal precursor is typically a metal halide, which may be provided by subliming a solid metal halide or by contacting a pure metal with a halogen gas. The precursors may be provided through a showerhead or through a side entry point, and an exhaust system coupled to the chamber may be separately heated to manage condensation of exhaust components.

Substrate support for use with multi-zonal heating sources

Abstract: Apparatus for use with multi-zonal heating sources are provided. In some embodiments, a substrate support may have a pocket disposed in a surface of the substrate support and a lip disposed about the pocket to receive an edge of a substrate and to support the substrate over the pocket such that a gap is defined between a pocket surface and a backside surface of the substrate when the substrate is disposed on the lip; a plurality of features to operate in combination with a plurality of heating zones provided by a multi-zonal heating source to provide a desired temperature profile on a frontside surface of a substrate when the substrate is disposed on the lip, and wherein the plurality of features are alternatingly disposed above and below a baseline surface profile of the pocket surface in a radial direction from a central axis of the substrate support.

Methods for depositing germanium-containing layers

Abstract: Methods for depositing germanium-containing layers on silicon-containing layers are provided herein In some embodiments, a method may include depositing a first layer atop an upper surface of the silicon-containing layer, wherein the first layer comprises predominantly germanium (Ge) and further comprises a lattice adjustment element having a concentration selected to enhance electrical activity of dopant elements, wherein the dopant elements are disposed in at least one of the first layer or in an optional second layer deposited atop of the first layer, wherein the optional second layer, if present, comprises predominantly germanium (Ge) In some embodiments, the second layer is deposited atop the first layer In some embodiments, the second layer comprises germanium (Ge) and dopant elements

Methods for low temperature conditioning of process chambers

Abstract: Methods for removing residue from interior surfaces of process chambers are provided herein. In some embodiments, a method of conditioning interior surfaces of a process chamber may include maintaining a process chamber at a first pressure and at a first temperature of less than about 800 degrees Celsius; providing a process gas to the process chamber at the first pressure and the first temperature, wherein the process gas comprises chlorine and nitrogen to remove residue disposed on interior surfaces of the process chamber; and increasing the pressure in the process chamber from the first pressure to a second pressure while continuing to provide the process gas to the process chamber.

Methods and apparatus for forming silicon germanium-carbon semiconductor structures

Abstract: Methods and apparatus for forming semiconductor structures are disclosed herein. In some embodiments, a semiconductor structure may include a first germanium carbon layer having a first side and an opposing second side; a germanium-containing layer directly contacting the first side of the first germanium carbon layer; and a first silicon layer directly contacting the opposing second side of the first germanium carbon layer. In some embodiments, a method of forming a semiconductor structure may include forming a first germanium carbon layer atop a first silicon layer; and forming a germanium-containing layer atop the first germanium carbon layer.

Methods and apparatus for forming semiconductor structures

Abstract: Methods and apparatus for forming semiconductor structures are disclosed herein. In some embodiments, a semiconductor structure may include a first germanium carbon layer having a first side and an opposing second side; a germanium-containing layer directly contacting the first side of the first germanium carbon layer; and a first silicon layer directly contacting the opposing second side of the first germanium carbon layer. In some embodiments, a method of forming a semiconductor structure may include forming a first germanium carbon layer atop a first silicon layer; and forming a germanium-containing layer atop the first germanium carbon layer.