A charge volume configuration for use in delivery of gas to a reactor for processing semiconductor wafers is provided. A charge volume includes a chamber that extends between a proximal end and a distal end. A base connected to the proximal end of the chamber, and the base includes an inlet port and an outlet port. A tube is disposed within the chamber. The tube has a tube diameter that is less than a chamber diameter. The tube has a connection end coupled to the inlet port at the proximal end of the chamber and an output end disposed at the distal end of the chamber.

Examples of a predictive maintenance method includes determining whether analog data measured in a substrate treatment that has used a recipe exceeds an allowable threshold which corresponds to the recipe and has been determined beforehand, and notifying, in a case where it is determined that the analog data exceeds the allowable threshold in the determination, a user that a relating module which has been associated with the analog data beforehand has deteriorated.

A chuck vacuum line of a semiconductor processing tool includes a first portion that penetrates a sidewall of a main pumping line of the semiconductor processing tool. The chuck vacuum line includes a second portion that is substantially parallel to the sidewall of the main pumping line and to a direction of flow in the main pumping line. A size of the second portion increases between an inlet end of the second portion and an outlet end of the second portion along the direction of flow in the main pumping line.

Describes are shutter disks comprising one or more of titanium (Ti), barium (Ba), or cerium (Ce) for physical vapor deposition (PVD) that allows pasting to minimize outgassing and control defects during etching of a substrate. The shutter disks incorporate getter materials that are highly selective to reactive gas molecules, including O.sub.2, CO, CO.sub.2, and water.

An abatement system with liquid-ring pump maintains an exhaust line at a negative pressure during operation of a vacuum pump. The vacuum pump operates to exhaust process gas and by-products from a process chamber through a foreline. The vacuum pump exhausts the process gas to the abatement system with liquid-ring pump through the exhaust line. The overall life of the vacuum pump is increased significantly because the exhaust line is maintained at a negative pressure which reduces precipitation of gases in the vacuum pump thereby reducing by-product accumulation and damage to the vacuum pump. The liquid-ring pump receives the exhaust process gas from the vacuum pump and outputs gas to a burn chamber and liquid to a recirculation tank. Liquid is recycled through the liquid-ring pump thereby reducing accumulation of precipitated gas and by-product. The overall life of the liquid-ring pump and vacuum pump are increased.

An apparatus for growing semiconductor wafers, in particular of silicon carbide, wherein a chamber houses a collection container and a support or susceptor arranged over the container. The support is formed by a frame surrounding an opening accommodating a plurality of arms and a seat. The frame has a first a second surface, opposite to each other, with the first surface of the frame facing the support. The arms are formed by cantilever bars extending from the frame into the opening, having a maximum height smaller than the frame, and having at the top a resting edge. The resting edges of the arms define a resting surface that is at a lower level than the second surface of the frame. The seat has a bottom formed by the resting surface.

An apparatus for processing a substrate may include an upper chamber, a lower chamber being combined with the upper chamber and separated from the upper chamber, and at least one driving member for moving the lower chamber in an upward direction and a downward direction. The least one driving member may include a supporting element for supporting the lower chamber, a first driving element for moving the lower chamber and the supporting element, a second driving element for moving the lower chamber, the supporting element and the first driving element, the second driving element being disposed adjacent to the first driving element, and a connecting element for connecting the first driving element to the second driving element. A processing space may be provided between the upper chamber and the lower chamber when the lower chamber is combined with the upper chamber.

A controller for a substrate processing chamber includes a film thickness estimating module configured to while a first RF power is provided to generate plasma in the substrate processing chamber, receive a first measurement of a second RF power supplied to a probe, receive a second measurement of a DC self-bias voltage associated with the probe, wherein the second measurement is indicative of a thickness of a film deposited within the substrate processing chamber, and calculate a thickness of the film using the first measurement of the second RF power and the second measurement of the DC self-bias voltage. An operating parameter adjustment module is configured to adjust at least one operating parameter of the substrate processing chamber based on the thickness of the film as calculated by the film thickness estimating module.

There is provided a technique capable of forming a plating film excellent in film thickness and quality uniformity on a to-be-plated surface of a semiconductor wafer while suppressing an increase in costs of facilities. An apparatus for manufacturing a semiconductor device includes: a reaction bath; a supply pipe provided inside the reaction bath and including a plurality of ejection holes for ejecting the reaction solution, the ejecting holes being arranged in a longitudinal direction of the supply pipe; and an outer bath serving as a reservoir bath provided adjacent to the reaction bath on a first end side of the supply pipe and storing therein the reaction solution overflowed the reaction bath. The aperture ratio of part of the ejection holes more distant from the outer bath is at least partially higher than that of part of the ejection holes closer to the outer bath.

Described herein is a technique capable of suppressing a deviation in a thickness of a film formed on a substrate. According to one aspect of the technique of the present disclosure, a substrate processing apparatus includes a substrate retainer capable of supporting substrates; a cylindrical process chamber including a discharge part and supply holes; partition parts arranged in the circumferential direction to partition supply chambers communicating with the process chamber through the supply holes; nozzles provided with an ejection hole; and gas supply pipes. The supply chambers includes a first nozzle chamber and a second nozzle chamber, the process gas includes a source gas and an assist gas, the nozzles includes a first nozzle for the assist gas flows and a second nozzle disposed in the second nozzle chamber and through which the source gas flows, and the first nozzle is disposed adjacent to the second nozzle.