A film forming apparatus includes a stage on which a substrate is mounted, a first container configured to accommodate the stage, a gas supply configured to supply gases containing two types of monomers into the first container to form a polymer film on the substrate mounted on the stage, a porous member arranged radially outward from a processing space, which is a space above the substrate, and configured to draw in polymers formed by the gases containing two types of monomers exhausted from the first container, and a heater configured to heat the porous member to a first temperature when the polymer film is formed on the substrate.

The present inventive concept relates to a substrate processing device and a substrate processing method. The substrate processing device comprises: a chamber; a substrate support part rotatably installed in a process space inside the chamber so as to allow at least one substrate to be seated thereon; a first gas spray unit for spraying, to a first region of the process space, a source gas and a first purge gas for purging the source gas; a source gas supply source for supplying the source gas to the first gas spray unit; a first purge gas supply source for supplying the first purge gas to the first gas spray unit; a second gas spray unit spatially separated from the first region and configured to spray, to a second region of the process space, a reactant gas reacting with the source gas and a second purge gas for purging the reactant gas; a reactant gas supply source for supplying the reactant gas to the second gas spray unit; and a second purge gas supply source for supplying the second purge gas to the second gas spray unit.

A film forming apparatus including a bell-shaped chamber having an internal space and an exhaust port; a wafer boat in the bell-shaped chamber, and in which wafers are sequentially stackable from a lower end portion to an upper end portion; a gas supply pipe passing through the bell-shaped chamber to supply gas to the bell-shaped chamber; and an injector connected to the gas supply pipe to inject gas onto the wafers, wherein the injector includes a gas flow path through which the gas supplied from the gas supply pipe flows and nozzles connected to the gas flow path, stepped surfaces are on an inner surface of the injector such that a diameter of the gas flow paths in at least two different locations within the injector are different, and lengths of the nozzles are different from each other, and correspond with the diameter of the gas flow path.

A film forming apparatus including a bell-shaped chamber having an internal space and an exhaust port; a wafer boat in the bell-shaped chamber, and in which wafers are sequentially stackable from a lower end portion to an upper end portion; a gas supply pipe passing through the bell-shaped chamber to supply gas to the bell-shaped chamber; and an injector connected to the gas supply pipe to inject gas onto the wafers, wherein the injector includes a gas flow path through which the gas supplied from the gas supply pipe flows and nozzles connected to the gas flow path, stepped surfaces are on an inner surface of the injector such that a diameter of the gas flow paths in at least two different locations within the injector are different, and lengths of the nozzles are different from each other, and correspond with the diameter of the gas flow path.

A gas processing apparatus includes: a mounting part; a gas supply part located above the mounting part and having a plurality of first gas supply holes; a gas supply path forming part configured to form a supply path of a processing gas, the gas supply path forming part including a flat opposing surface which faces the gas supply part from above and defines a first diffusion space for diffusing the processing gas in a lateral direction; a recess surrounding a central portion of the opposing surface; and a plurality of gas dispersion portions located in the recess surrounding the central portion of the opposing surface without protruding from the opposing surface, each of the plurality of gas dispersion portions having a plurality of gas discharge holes extending along a circumferential direction so as to laterally disperse the processing gas supplied from the supply path in the first diffusion space.

Apparatus and methods for vacuum chucking a substrate to a susceptor. The susceptor comprises one or more angularly spaced pockets are positioned around a center axis of the susceptor, the one or more angularly spaced pockets having an inner pocket and an outer pocket. The susceptor can be configured as an intermediate chuck having one or more pucks positioned within the inner pocket or as a distributed chuck having one or more pucks positioned within the outer pocket. The one or more pucks has a center hole, at least one radial channel and at least one circular channel having chuck holes for vacuum chucking a substrate.

Apparatus and methods for vacuum chucking a substrate to a susceptor. The susceptor comprises one or more angularly spaced pockets are positioned around a center axis of the susceptor, the one or more angularly spaced pockets having an inner pocket and an outer pocket. The susceptor can be configured as an intermediate chuck having one or more pucks positioned within the inner pocket or as a distributed chuck having one or more pucks positioned within the outer pocket. The one or more pucks has a center hole, at least one radial channel and at least one circular channel having chuck holes for vacuum chucking a substrate.

The invention relates to a device 10 for holding workpieces 30 in a process chamber. The invention additionally relates to a coating system 20 and to a method for coating a workpiece 30. In order to allow for precise adjustment of the height of the position of workpieces 30 while supporting same in a secure and stable manner, the holding device 10 comprises a tray 72 for the workpieces 30, a height-adjustable first support element 22 and a height-adjustable second support element 48 for the tray 72, wherein each of the support elements 22, 48 comprises at least one first and one second limb element 26, 56, wherein the respective first and the respective second limb element 26, 56 are coupled so as to be pivotable relative to one another about a pivot axis X, Y, and wherein the pivot axis X of the first support element 22 is arranged at an angle to the pivot axis Y of the second support element 48.

The invention relates to a holding device (2) for holding a magnetizable substrate (8) during machining of at least one substrate surface, in particular of a magnetizable tool to be machined, comprising a magnetic holding unit (4) arranged at the end for fixing the substrate (8) at the end by forming a magnetic field, a receiving unit (6) arranged on the holding unit (4) for receiving the substrate (8), a replaceable adapter unit (10) arranged within the receiving unit (6) for guiding and shielding the substrate (8), the adapter unit (10) having at least one recess (12) for the feedthrough of the substrate (8), the substrate (8) being fixable within the holding device (2) in a laterally supported manner by means of the recess (12).

In a CVD reactor and a method for the open-loop/closed-loop control of the surface temperature of substrates arranged therein, the substrates lie on substrate-retaining elements, which are each supported by a gas cushion. Actual values of the surface temperatures associated with a respective substrate-retaining element are successively measured and the surface temperatures are controlled in a closed-loop manner to a common value by varying the gas cushion height. After measuring each actual value of the surface temperature associated with a substrate-retaining element and using only the respective last-measured actual value of the surface temperatures of each substrate-retaining element, a first average value is calculated, a difference value associated with the substrate-retaining element is calculated, and an approximate actual value is calculated for each of the other substrate-retaining elements by adding the associated difference value to the first average value, said approximate actual value being used for the open-loop/closed-loop control.