Exemplary processing methods may include forming a plasma of a cleaning precursor in a remote region of a semiconductor processing chamber. The methods may include flowing plasma effluents of the cleaning precursor into a processing region of the semiconductor processing chamber. The methods may include contacting a substrate support with the plasma effluents for a first period of time. The methods may include lowering the substrate support from a first position to a second position while continuing to flow plasma effluents of the cleaning precursor. The methods may include cleaning the processing region of the semiconductor processing chamber for a second period of time.

A substrate supporting member provided in a processing chamber for processing the substrate and configured to support the substrate, has on its upper surface, a protruding area that supports an edge side of the substrate from below; a recessed area provided inside of the protruding area so as not to be brought into contact with the substrate supported by the protruding area; and an auxiliary protruding area formed lower than the protruding area and provided in the recessed area, and has a flow passage that is communicated with inside of the recessed area, for escaping gas between the substrate and the substrate supporting member from the recessed area side.

A filter apparatus for arc ion evaporator used in the cathodic arc plasma deposition system according to this invention is characterized by a set of multiple straight tubes placing in parallel to one another wherein the size and/or amount of large particles, which could contaminate the plasma beam, can be controlled. The filter apparatus further comprises a set of solenoid coils which coil around the filter to generate a magnetic field to drive plasma to the targeting object or material.

The filter apparatus of this present invention can reduce a number of large particles in the plasma beam and can further be designed into compacted shapes with high flexibility for adaptation in order to suit engineering demands. In addition, the filter apparatus according to this invention does not hinder the line of sight and is in consistent with the direction of plasma movement so that large number of plasma can be obtained, resulting in a reduced electrical consumption for driving the plasma and a faster deposition rate to enable quick, high volume production of quality products at a reasonable cost.

A sputtering target assembly for use in a vapor deposition apparatus, the sputtering target assembly comprising a sputtering surface; a sidewall extending from the sputtering surface at an angle to the sputtering surface; a particle trap formed of a roughness located along the sidewall and extending radially from the sputtering surface, wherein the roughness of the particle trap has a macrostructure and a microstructure.

The present disclosure describes material surface treatment systems and methods that employ a byproduct treatment system to receive a byproduct generated by application of a plasma, the byproduct treatment system configured to degrade the byproduct and exhaust the degraded byproduct from the material surface treatment. The disclosed byproduct treatment system modifies the byproduct prior to evacuation from the material treatment system in order to reduce or eliminate byproduct contamination into the surrounding atmosphere.

An etching chamber is equipped with an actively-cooled element preferentially adsorbs volatile compounds that are evolved from a polymeric layer of a wafer during etching, which compounds will act as contaminants if re-deposited on the wafer, for example on exposed metal contact portions where they may interfere with subsequent deposition of metal contact layers. In desirable embodiments, a getter sublimation pump is also provided in the etching chamber as a source of getter material. Methods of etching in such a chamber are also disclosed.

The invention concerns a device and a process, the device being a cleaning device utilizing a dry chemical means assisted by plasma from a reactor (10) containing an unwanted deposit on its walls and at least one other polarizable surface (12), characterized in that it comprises means (13, 14) for positively polarizing one or each of the polarizable surfaces relative to the reactor walls maintained at a reference potential.

Embodiments of the present disclosure generally provide various apparatus and methods for reducing particles in a semiconductor processing chamber. One embodiment of present disclosure provides a vacuum screen assembly disposed over a vacuum port to prevent particles generated by the vacuum pump from entering substrate processing regions. Another embodiment of the present disclosure provides a perforated chamber liner around a processing region of the substrate. Another embodiment of the present disclosure provides a gas distributing chamber liner for distributing a cleaning gas around the substrate support under the substrate supporting surface.

A method of forming a particle trap on a sputtering chamber component comprises forming a first pattern on at least a portion of a surface of the sputtering chamber component to form a first patterned top surface, and forming a second pattern on at least a portion of the first patterned top surface.

There is provided a technique that includes: performing a set a plurality of times, the set including: (a) loading at least one substrate into a process container; (b) performing a process of forming a nitride film on the at least one substrate by supplying a film-forming gas to the at least one substrate supported by a support in the process container; (c) unloading the processed at least one substrate from an interior of the process container; and (d) supplying an oxidizing gas into the process container from which the processed at least one substrate has been unloaded so as to oxidize one part of the nitride film formed inside the process container in (b) into an oxide film and maintain another part of the nitride film, which is different from the one part of the nitride film, as it is without oxidizing the another part.