An electrostatic chuck includes a ceramic body and adapter objects. The adapter objects collectively form a plurality of openings distributed over a bottom surface of the ceramic body at different distances from a center of a circle defined by the bottom surface of the ceramic body.

A heater includes a base, a resistive heating body, and a terminal portion. The base is formed of ceramic and has a plate shape. The resistive heating body is located in the base. The terminal portion is electrically connected to the resistive heating body. The base includes a protruding portion surrounding the terminal portion, on a lower surface side. The protruding portion is formed of a ceramic member, and the terminal portion passes through a through hole formed in the ceramic member. The ceramic member is bonded to at least one of the lower surface of the base or the terminal portion.

An upper radiation thermometer is provided obliquely above a semiconductor wafer to be measured. The upper radiation thermometer includes a photovoltaic detector that produces an electromotive force when receiving light. The photovoltaic detector has both high-speed responsivity and good noise properties in a low-frequency range. The upper radiation thermometer does not require a mechanism for cooling because the photovoltaic detector is capable of obtaining sufficient sensitivity at room temperature without being cooled. There is no need to provide a light chopper and a differentiating circuit in the upper radiation thermometer. This allows the upper radiation thermometer to measure the front surface temperature of the semiconductor wafer with a simple configuration both during preheating by means of halogen lamps and during flash irradiation.

An apparatus for manufacturing a semiconductor device includes a base portion, a bonding stage arranged on the base portion and having a placement surface for placing a substrate; and one or more connecting members which connect the base portion and the bonding stage, wherein at least one of the one or more connecting members is a connecting plate that deflects following the expansion and contraction of the bonding stage in the plane direction caused by a temperature change.

The present disclosure describes an apparatus. The apparatus includes a chuck for placing an object thereon, a gas passage extending along a periphery of an outer sidewall of the chuck and separating the chuck into an inner portion and a sidewall portion, and a plurality of gas holes through the sidewall portion and configured to connect a gas external to the chuck to the gas passage.

A substrate fixing device includes a base plate including therein a gas supply section, and an electrostatic chuck provided on the base plate. The electrostatic chuck includes a base having a mounting surface on which a target to be held by electrostatic attraction is mounted, an insertion hole, penetrating the base, having an inner surface that defines the insertion hole and is threaded to form a female thread, and a screw member, having an outer surface that is threaded to form a male thread, and inserted into the insertion hole to assume a mated state in which the male thread mates with the female thread. A gas from the gas supply section is supplied to the mounting surface via the screw member.

There is provided a film forming apparatus, including: a processing chamber having a processing space in which a film forming process is performed on a substrate; a substrate support part configured to support the substrate inside the processing chamber; at least one sputtering particle emission part including a target and configured to emit sputtering particles to the substrate from the target; and at least one etching particle emission part configured to emit etching particles having an etching action with respect to the substrate, wherein the sputtering particles emitted from the at least one sputtering particle emission part are deposited on the substrate to form a film, and a portion of the film is etched by the etching particles emitted from the at least one etching particle emission part.

A pedestal assembly including a pedestal for supporting a substrate. A central shaft positions the pedestal at a height during operation. A ring is placed along a periphery of the pedestal. A ring adjuster subassembly includes an adjuster flange disposed around a middle section of the central shaft. The subassembly includes a sleeve connected to the adjuster flange and extending from the adjuster flange to an adjuster plate disposed under the pedestal. The subassembly includes ring adjuster pins connected to the adjuster plate and extending vertically from the adjuster plate. Each of the ring adjuster pins being positioned on the adjuster plate at locations adjacent to and outside of a pedestal diameter. The ring adjuster pins contacting an edge undersurface of the ring. The adjuster flange coupled to at least three adjuster actuators for defining an elevation and tilt of the ring relative to a top surface of the pedestal.

An example semiconductor processing system may include a chamber body having sidewalls and a base. The processing system may also include a substrate support extending through the base of the chamber body. The substrate support may include a support platen configured to support a semiconductor substrate, and a shaft coupled with the support platen. The processing system may further include a plate coupled with the shaft of the substrate support. The plate may have an emissivity greater than 0.5. In some embodiments, the plate may include a radiation shied disposed proximate the support platen. In some embodiments, the plate may include a pumping plate disposed proximate the base of the chamber body. In some embodiments, the emissivity of the plate may range between about 0.5 and about 0.95.

A system for performing a bevel cleaning process on a substrate includes a substrate support including an electrode and a plurality of plasma needles arranged around a perimeter of the substrate support. The plasma needles are in fluid communication with a gas delivery system and are configured to supply reactive gases from the gas delivery system to a bevel region of the substrate when the substrate is arranged on the substrate support and electrically couple to the electrode of the substrate support and generate plasma around the bevel region of the substrate.