Abstract: A modified susceptor for use in an epitaxial deposition apparatus and process is disclosed. The modified susceptor has an inner annular ledge capable of supporting a semiconductor wafer and has a plurality of holes in the surface to allow cleaning gas utilized during an epitaxial deposition process to pass through the susceptor and contact substantially the entire back surface of the semiconductor wafer and remove a native oxide layer. Also, the plurality of holes on the susceptor allows dopant atoms out-diffused from the back surface during the epitaxial deposition process to be carried away from the front surface in an inert gas stream and into the exhaust such that autodoping of the front surface is minimized.

Abstract: The process relates to a process for nucleating and growing oxygen precipitates in a silicon wafer. The process includes subjecting a wafer having a non-uniform concentration of crystal lattice vacancies with the concentration of vacancies in the bulk layer being greater than the concentration of vacancies in the surface layer to a non-isothermal heat treatment to form of a denuded zone in the surface layer and to cause the formation and stabilization of oxygen precipitates having an effective radial size 0.5 nm to 30 nm in the bulk layer. The process optionally includes subjecting the stabilized wafer to a high temperature thermal process (e.g. epitaxial deposition, rapid thermal oxidation, rapid thermal nitridation and etc.) at temperatures in the range of 1000° C. to 1275° C. without causing the dissolution of the stabilized oxygen precipitates.

Abstract: A process for manufacturing a semiconductor wafer comprises first etching the wafer to reduce damage on the front and back surfaces. An epitaxial layer is grown on the etched front surface of the semiconductor wafer to improve the surface roughness of the front surface. Finally, the front surface of the wafer is final polished to further improve the surface roughness of the front surface.

Abstract: A modified susceptor for use in an epitaxial deposition apparatus and process is disclosed. The modified susceptor has an inner annular ledge capable of supporting a semiconductor wafer and has a plurality of holes in the surface to allow cleaning gas utilized during an epitaxial deposition process to pass through the susceptor and contact substantially the entire back surface of the semiconductor wafer and remove a native oxide layer. Also, the plurality of holes on the susceptor allows dopant atoms out-diffused from the back surface during the epitaxial deposition process to be carried away from the front surface in an inert gas stream and into the exhaust such that autodoping of the front surface is minimized.

Abstract: A single crystal silicon wafer with a back surface free of an oxide seal and substantially free of a chemical vapor deposition process induced halo and an epitaxial silicon layer on the front surface, the epitaxial layer is characterized by an axially symmetric region extending radially outwardly from the central axis of the wafer toward the circumferential edge of the wafer having a substantially uniform resistivity, the radius of the axially symmetric region being at least about 80% of the length of the radius of the wafer.

Abstract: Process for the preparation of an epitaxial wafer having a total thickness variation and/or site total indicated reading of less than about 1.0 .mu.ms. The distance between the front and back surfaces of the epitaxial wafer at discrete positions on the front surface is measured to generate thickness profile data. Additional stock is removed from the front surface of the epitaxial wafer in a stock removal step to reduce the thickness of the epitaxial wafer to the target thickness, T.sub.t, with the amount of stock being removed at each of said discrete positions being determined after taking into account the thickness profile data and T.sub.t.

Abstract: A photoconducting sulfur- and hydrogen-doped amorphous carbon is prepared by deposition from a plasma glow discharge in a gas mixture which comprises at least one hydrocarbon and at least one sulfur source.