A plasma processing apparatus includes a first mounting table on which a target object to be processed is mounted, a second mounting table provided around the first mounting table, and an elevation mechanism. A focus ring is mounted on the second mounting table. The second mounting table has therein a temperature control mechanism. The elevation mechanism is configured to vertically move the second mounting table.

Methods and apparatus for processing substrates are provided herein. In some embodiments, an apparatus for processing substrates includes a chamber body enclosing a processing volume, the chamber body comprising a chamber floor, a chamber wall coupled to the chamber floor, and a chamber lid removably coupled to the chamber wall, wherein at least one of the chamber floor, the chamber wall, and the chamber lid comprise passages for a flow of a thermal control media; a heater plate disposed adjacent to and spaced apart from the chamber floor; a sleeve disposed adjacent to and spaced apart from the chamber wall, the sleeve supported by the heater plate; and a first sealing element disposed at a first interface between the chamber wall and the chamber lid.

A precleaning chamber (100, 200, 300) and a plasma processing apparatus, comprising a cavity (20) and a dielectric window (21, 21′) disposed at the top of the cavity (20), a base (22 ) and a process assembly (24) surrounding the base (22) are disposed in the precleaning chamber (100, 200, 300), and the base (22), the process assembly (24 ) and the dielectric window (21, 21′) together form a process sub-cavity (211) above the base (22); and a space of the cavity (20) located below the base (22) is used as a loading/unloading sub-cavity (202), the precleaning chamber (100, 200, 300) further comprises a gas is device (32), the gas inlet device (32) comprises a gas inlet (323), and the gas inlet (323) is configured to directly transport a process gas into the process sub-cavity (211) from above the process assembly (24). The precleaning chamber (100, 200, 300) not only shortens the gas inlet path of the process gas, but also reach a desired plasma density under the conditions where a relatively small amount of process gas is introduced, thereby reducing the usage cost.

Process chambers and methods for calibrating components of a processing chamber while the chamber volume is under vacuum are described. The process chamber includes a motor shaft connected to the process chamber with a plurality of motor bolts. A support plate is positioned under the chamber floor to accommodate for deflection of the chamber floor due to vacuum conditions within the chamber volume. A bellows assembly extending from the chamber floor to the support plate maintains vacuum conditions within the chamber.

Implementations of the present disclosure generally relates to a transfer chamber coupled to at least one vapor phase epitaxy chamber a plasma oxide removal chamber coupled to the transfer chamber, the plasma oxide removal chamber comprising a lid assembly with a mixing chamber and a gas distributor; a first gas inlet formed through a portion of the lid assembly and in fluid communication with the mixing chamber; a second gas inlet formed through a portion of the lid assembly and in fluid communication with the mixing chamber; a third gas inlet formed through a portion of the lid assembly and in fluid communication with the mixing chamber; and a substrate support with a substrate supporting surface; a lift member disposed in a recess of the substrate supporting surface and coupled through the substrate support to a lift actuator; and a load lock chamber coupled to the transfer chamber.

An assembly for adjusting gas flow patterns and gas-plasma interactions including a toroidal plasma chamber. The toroidal plasma chamber has an injection member, an output member, a first side member and a second side member that are all connected. The first side member has a first inner cross-sectional area in at least a portion of the first side member and a second inner cross-sectional area in at least another portion of the first side member, where the first inner cross-sectional area and the second inner-cross-sectional area being different. The second side member has a third inner cross-sectional area in at least a portion of the second side member and a fourth inner cross-sectional area in at least another portion of the second side member, where the third inner cross-sectional area and the fourth inner-cross-sectional area being different.

A film forming apparatus comprises a film forming vessel comprising a first mold and a second mold that is arranged to be opposed to the first mold. The first mold is configured to include a first recessed portion and a first planar portion arranged around the first recessed portion and an exhaust port in a bottom portion of the first recessed portion. The film forming apparatus also comprises a seal member placed between the first planar portion of the first mold and the second mold. The seal member is configured to keep inside of the film forming vessel airtight; and an exhaust device connected with the exhaust port. The work is placed away from the first planar portion such that a film formation target part of the work faces an internal space of the first recessed portion when the film forming vessel is closed. A film forming method comprises (a) forming a film on part of the work by the film forming apparatus; (b) opening the film forming vessel after the (a); and (e) at a start of the (b), evacuating the film forming vessel via the exhaust port by the exhaust device.

A film forming apparatus configured to form a film on part of a work. The film forming apparatus comprises a film forming vessel comprising a first mold located above the work and a second mold located below the work to be opposed to the first mold. The first mold is configured to include a first recessed portion that is recessed upward viewed from a film formation target part of the work and a first planar portion arranged around the first recessed portion. The second mold is configured to include a second planar portion in a place opposed to the first planar portion. The film forming apparatus also comprises a first seal member located between the first planar portion and the work. The first seal member is configured to come into contact with the first planar portion and the work when the work is away from the first planar portion. The film forming apparatus further comprises a second seal member located between the second planar portion and the work. The second seal member is configured to come into contact with the second planar portion and the work when the work is away from the second planar portion. The second seal member is provided on a lower face of the work. This configuration suppresses poor film formation when the seal member is placed between the film forming vessel and the work.

A substrate processing apparatus includes a chamber in which a first processing space, a second processing space, a connecting space connecting the first processing space and the second processing space, a first hole connecting with the connecting space and a second hole connecting with the connecting space are formed, a first gate valve having a first valve element and closing the first hole, the first valve element sliding in the first hole, opening and closing the connecting space, and a second gate valve having a second valve element and closing the second hole, the second valve element sliding in the second hole, opening and closing the connecting space, wherein a region in which the first hole and the connecting space connect with each other and a region in which the second hole and the connecting space connect with each other are one common region.

Semiconductor systems and methods may include a semiconductor processing chamber having a gas box defining an access to the semiconductor processing chamber. The chamber may include a spacer characterized by a first surface with which the gas box is coupled, and the spacer may define a recessed ledge on an interior portion of the first surface. The chamber may include a support bracket seated on the recessed ledge that extends along a second surface of the spacer. The chamber may also include a gas distribution plate seated on the support bracket.