A workpiece unit that includes a workpiece, a tape stuck to the workpiece; and an annular frame to which an outer circumferential edge of the tape is stuck and which has an opening defined centrally therein. The workpiece is disposed in the opening in the annular frame and supported on the annular frame by the tape, and at least one of the tape and the annular frame has an irreversible discoloring section that discolors in response to an external stimulus. Such a configuration makes it possible to determine whether or not a process involving an external stimulus has been carried out on the workpiece unit, based on the appearance of the workpiece unit (i.e., based on whether the irreversible discoloring section has been discolored or not).

A substrate is held in a substrate holder and accommodated in a treatment chamber. A positive electrode panel is arranged opposite to a surface of the substrate. Process gas is sent from a blower panel, toward the positive electrode panel and the substrate. A positive electrode of a high-frequency power source is connected to the positive electrode panel, and a negative electrode of the high-frequency power source is connected to the blower panel, to apply a high-frequency voltage. The process gas passes between the positive electrode panel and the blower panel which is the negative electrode, so that plasma is generated. The generated plasma removes contaminants on the surface of the substrate.

An apparatus for a plasma processing includes an annular member, a support unit, a chamber and a pressure control unit. The annular member has a groove or a protrusion circumferentially formed on a bottom surface thereof, the groove or the protrusion having a first thread circumferentially formed on a side surface. The support unit has a protrusion or a groove circumferentially formed on a placing surface on which the annular member is placed such that the groove or the protrusion of the annular member is fitted with the protrusion or the groove of the support unit, the protrusion or the groove of the support unit having a second thread circumferentially formed on a side surface thereof. The chamber has therein the support unit. Further, the pressure control unit controls a pressure in the chamber such that a driving force for circumferentially rotating the annular member is obtained.

According to one aspect of the present disclosure, a vacuum processing apparatus includes: a decompressable process container; a supply port that is formed on a side wall of the process container and that is configured to supply, to the process container, an ionic liquid that absorbs an oxidizing gas; and a discharge port configured to discharge the ionic liquid supplied to the process container.

Implementations disclosed herein generally relate to systems and methods of protecting a substrate support in a process chamber from cleaning fluid during a cleaning process. The method of cleaning the process chamber includes positioning in the process chamber a cover substrate above a substrate support and a process kit that separates a purge volume from a process volume. The method of cleaning includes flowing a purge gas in the purge volume to protect the substrate support and flowing a cleaning fluid to a process volume above the cover substrate, flowing the cleaning fluid in the process volume to an outer flow path, and to an exhaust outlet in the chamber body. The purge volume is maintained at a positive pressure with respect to the process volume to block the cleaning fluid from the purge volume.

A processing method includes: disposing a workpiece in a processing container of a processing apparatus, and maintaining an inside of the processing container in a vacuum state; providing a cluster nozzle in the processing container; supplying a cluster generating gas to the cluster nozzle and adiabatically expanding the cluster generating gas in the cluster nozzle, thereby generating gas clusters; generating plasma in the cluster nozzle to ionize the gas clusters and injecting the ionized gas clusters onto the workpiece; supplying a reactive gas to the cluster nozzle and exposing the reactive gas to the plasma such that the reactive gas becomes monomer ions or radicals; and supplying the monomer ions or radicals to the processing container, thereby exerting a chemical reaction on a substance present on a surface of the workpiece.

A substrate cleaning method includes: providing a substrate including a low-k layer containing silicon to a substrate support; etching the low-k layer by a plasma generated from a first gas; separating the etched substrate from the substrate support; and removing a reaction product attached to the substrate in the etching by a plasma generated from a second gas. The second gas includes a first carbon-containing gas represented by C.sub.xH.sub.yF.sub.z (y≥0, x/z>¼).

A method for processing a substrate includes performing a cyclic process including a plurality of cycles, where the cyclic process includes: forming, in a plasma processing chamber, a passivation layer over sidewalls of a recess in a carbon-containing layer, by exposing the substrate to a first gas including boron, silicon, or aluminum, the carbon-containing layer being disposed over a substrate, purging the plasma processing chamber with a second gas including a hydrogen-containing gas, an oxygen-containing gas, or molecular nitrogen, and exposing the substrate to a plasma generated from the second gas, where each cycle of the plurality of cycles extends the recess vertically into the carbon-containing layer.

An embodiment low contamination chamber includes a gas inlet, an adjustable top electrode, and an adjustable bottom electrode. The low contamination chamber is configured to adjust a distance between the adjustable top electrode and the adjustable bottom electrode in response to a desired density of plasma and a measured density of plasma measured between the adjustable top electrode and the adjustable bottom electrode during a surface activation process. The low contamination chamber further includes an outlet.

A plasma processing apparatus according to one aspect includes a chamber body providing a chamber, the chamber body including a side wall, an opening being formed on the side wall, a stage provided in the chamber, a ceiling facing the stage, a gas supply system configured to supply a processing gas to the chamber, a power supply configured to supply electric power, and a wall that forms a processing space having a volume smaller than a volume of the chamber in the chamber. At least a part of the wall is movable between a position overlapping with a transport path extending between the processing space and the opening and a position not overlapping with the transport path, and the wall forms the processing space when the at least a part of the wall is disposed at the position overlapping with the transport path.