A substrate processing apparatus includes: a vacuum transfer chamber including a substrate transfer mechanism provided in a vacuum transfer space thereof to collectively hold and transfer substrates with a substrate holder; and a processing chamber having processing spaces and connected to the vacuum transfer chamber. The processing chamber includes a loading/unloading port provided on a side of the vacuum transfer chamber to allow the vacuum transfer space and the processing spaces to communicate with each other. The processing spaces include a first processing space in which a first process is performed on the substrate and a second processing space in which a second process is performed on the substrate subjected to the first process. The first and second processing spaces are arranged in a direction in which the substrate is loaded and unloaded, and the substrate holder has a length that extends over the first and second processing spaces.

A process for densifying annular porous substrates by chemical vapour infiltration, includes providing a plurality of unit modules including a support plate on which is formed a stack of substrates, the support plate including a central gas inlet opening communicating with an internal volume formed by the central passages of the stacked substrates and gas outlet openings distributed angularly around the central opening, and a thermal mass cylinder disposed around the stack of substrates having a first end integral with the support plate and a second free end, forming stacks of unit modules in the chamber of a densification furnace, and injecting into the stacks of unit modules a gas phase including a gas precursor of a matrix material to be deposited within the porosity of the substrates.

A thin film deposition apparatus includes: a chamber configured to process a plurality of substrates; a plurality of heater members disposed to correspond to the substrates to heat the substrates; a plurality of lift pins configured to be elevated through the heater members and support lower surfaces of the substrates; a plurality of support plates on which lower ends of the lift pins are configured to be seated; a plurality of support columns coupled with and supporting the heater members; and a plurality of spray ports configured to supply a process gas to the substrates, wherein the support plates are mounted on a plurality of seats formed on at least one side of the chamber, and configured to be elevated together with the heater members when the heater members are elevated.

A substrate processing apparatus, includes a reaction furnace, a preparatory chamber provided below the reaction furnace, an elevating mechanism configured to raise/lower a substrate holder between the reaction furnace and the preparatory chamber, a fluid circulation mechanism including a suction part for sucking a fluid within the preparatory chamber, a pipe part constituting a flow path through which the fluid flows from the suction part to a supply part, and a cooling mechanism, provided in the flow path, for cooling the fluid, and a control part for controlling the fluid circulation mechanism and the elevating mechanism to circulate the fluid sucked from the suction part through the flow path, and supply the fluid from the supply part to the preparatory chamber. The cooling mechanism is disposed adjacent to the suction part to cool the fluid introduced from the suction part before circulating the fluid through the flow path.

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.

A semiconductor processing apparatus includes an outer tube, an inner tube in the outer tube and providing a process space, and a nozzle between the outer tube and the inner tube. The nozzle provides an internal passage. The inner tube provides a slit. The nozzle provides a plurality of holes. The plurality of holes are vertically spaced apart from each other. The slit vertically extends to expose at least two of the plurality of holes. The internal passage is connected to the process space through the slit and the plurality of holes.

The present invention relates to a susceptor including a substrate including a carbon material and having one main surface on which a silicon water is to be placed, and another main surface facing the one main surface, in which an entire surface of the substrate is covered with a thin film including silicon carbide, the one main surface has an emissivity variation of 3% or less, and a ratio of an average emissivity between the one main surface and the another main surface facing the one main surface is from 1:1 to 1:0.8.

Disclosed are a method for preheating a substrate treating apparatus capable of shortening a preheating time and simultaneously performing a maintenance operation, and a computer program for the same. The method includes setting a parameter related to preheating of a preheating target component among components constituting the substrate treating apparatus; and preheating the preheating target component based on the set parameter, wherein a movement range of the preheating target component is limited to a value within a movable range.

A thin film deposition system includes a vacuum-preloaded gas bearing deposition head positioned in an external environment having an ambient pressure, the deposition head having an output face including a plurality of source openings through which gaseous materials are supplied and one or more exhaust openings. An exhaust pressure at the exhaust openings is less than ambient pressure, and a source pressure at the source openings is greater than that at the exhaust openings, with the pressure at the outermost source openings being greater than ambient pressure. A motion control system moves a substrate unit over the output face in the in-track direction without constraining its motion in a direction normal to the output face to a point where a center of gravity of the substrate unit is beyond the first edge of the output face.

A substrate processing apparatus, including a reaction chamber to process a substrate, a photon source to provide the reaction chamber with photons from the top side of the reaction chamber, a substrate support to support the substrate, a chemical inlet to provide the reaction chamber with a reactive chemical; and a chemical outlet to exhaust gases from the reaction chamber, the chemical outlet including a surface separating the reaction chamber from a surrounding space.