The present disclosure generally relates to a method and apparatus for determining a metric related to erosion of a ring assembly used in an etching within a plasma processing chamber. In one example, the apparatus is configured to obtain a metric indicative of erosion on an edge ring disposed on a substrate support assembly in a plasma processing chamber. A sensor obtains the metric for the edge ring. The metric correlates to the quantity of erosion in the edge ring. In another example, the ring sensor may be arranged outside of a periphery of a substrate support assembly. The metric may be acquired by the ring sensor through a plasma screen.

A plasma processing apparatus includes a processing chamber, a mounting table, a supporting shaft unit, a high frequency power supply and a high frequency shield. The mounting table mounts thereon a processing target in the processing chamber. The supporting shaft unit supports the mounting table from an opposite surface of a substrate mounting surface, has a protruding part that protrudes to the outside while penetrating through a wall of the processing chamber, and is connected to a rotation mechanism that rotates the mounting table about an axis. The high frequency power supply supplies a high frequency power for plasma processing. The high frequency shield covers the protruding part of the supporting shaft unit to suppress leakage of the high frequency power to the outside. The module unit is entirely detachable to divide each of the supporting shaft unit and the high frequency shield into parts in a longitudinal direction.

Embodiments of showerheads having a detachable gas distribution plate are provided herein. In some embodiments, a showerhead for use in a semiconductor processing chamber may include a base having a first side and a second side opposing the first side; a gas distribution plate disposed proximate the second side of the base, wherein the gas distribution plate is formed from a material having an electrical resistivity between about 60 ohm-cm to 90 ohm-cm; a clamp disposed about a peripheral edge of the gas distribution plate to removably couple the gas distribution plate to the base; and a thermal gasket disposed in a gap between the base and gas distribution plate.

A chamber component for a processing chamber is disclosed herein. In one embodiment, a chamber component for a processing chamber includes a component part body having unitary monolithic construction. The component part body has a textured surface. The textured surface includes a plurality of independent engineered macro features integrally formed with the component part body. The engineered macro features include a macro feature body extending from the textured surface.

An ion source includes a plasma chamber, and a suppression electrode disposed downstream of the plasma chamber, and is operable to irradiate the suppression electrode with an ion beam produced from a cleaning gas to clean the suppression electrode. Prior to cleaning, the ion source moves the suppression electrode or the plasma chamber in a first direction to increase a distance between the plasma chamber and the suppression electrode.

Provided is a vacuum processing apparatus that improves an operation rate or efficiency of processing. The vacuum processing apparatus includes: a cylindrical pedestal which is disposed below a base plate that constitutes a specimen stage and is made of a metal, whose internal space is under an atmospheric pressure, and which is connected to the base plate in a state in which the base plate, and a base member and an insulating member fastened to the base plate are placed; a plate-shaped beam part which is disposed in the space of the pedestal with a gap from a lower surface of the base plate, and extends outward from the center of the space in a T or Y shape; a plurality of pins that pass through the beam part, the base plate, the insulating member, and the base member, support the specimen on tips thereof on an upper side of the specimen stage, and vertically move the specimen; a pin drive unit that is mounted on a lower surface of the center of the beam part; and a seal that is disposed around a through-hole through which each of the plurality of pins passes, and airtightly seals the inside and the outside.

A method and a device for plasma treatment of containers by means of a plurality of treatment segments each having at least one plasma station on a plasma module comprising a plasma wheel, wherein, during an operational malfunction and/or a cut-out in at least one of the plasma stations, the process gas, before being supplied to the plasma station in question, is carried off into the respective plasma chamber and/or the container held therein, by means of at least one bypass line.

A wear amount measuring apparatus includes a light source, a light transmission unit, a first and a second irradiation unit, a spectroscope and an analysis unit. The light transmission unit splits a low-coherence light from the light source into a first and a second low-coherence light. The first and the second irradiation units irradiate the first and the second low-coherence light to the component to receive reflected lights from the component. The light transmission unit transmits the reflected lights received by the first irradiation unit and the second irradiation unit to the spectroscope. The spectroscope configured to detect intensity distribution of the reflected lights from the first and the second irradiation unit. The analysis unit calculates a thickness difference between a thickness of the component at the first measuring point and that at the second measuring point by performing Fourier transform on the intensity distribution.

Embodiments of the systems and methods herein are directed towards forming, via ALD or CVD, a protective film in-situ on a plurality of interior components of a process chamber. The interior components coated with the protective film include a chamber sidewall, a chamber bottom, a substrate support pedestal, a showerhead, and a chamber top. The protective film can be of various compositions including amorphous Si, carbosilane, polysilicon, SiC, SiN, SiO.sub.2, Al.sub.2O.sub.3, AlON, HfO.sub.2, or Ni.sub.3Al, and can vary in thickness from about 80 nm to about 250 nm.

Embodiments of showerheads having a detachable gas distribution plate are provided herein. In some embodiments, a showerhead for use in a semiconductor processing chamber may include a base having a first side and a second side opposing the first side; a gas distribution plate disposed proximate the second side of the base, wherein the gas distribution plate is formed from a material having an electrical resistivity between about 60 ohm-cm to 90 ohm-cm; a clamp disposed about a peripheral edge of the gas distribution plate to removably couple the gas distribution plate to the base; and a thermal gasket disposed in a gap between the base and gas distribution plate.