A pedestal 103 of the present invention is a pedestal 103 for a seed 102 for crystal growth, in which one main surface 103a to which the seed 102 adheres is flat, and the pedestal has a gas-permeable region 106 which a thickness from the one main surface 103a that is formed to be locally thin.

An epitaxial growth device is provided, which includes an induction coil and a reaction body, and the induction coil is disposed along a circumferential direction of the reaction body; and the reaction body includes a heating base and a plurality of trays, wherein the heating base includes a plurality of workspaces, the plurality of trays are disposed in the plurality of workspaces, respectively, and each of the plurality of trays is disposed in a corresponding workspace; wherein each of the plurality of trays is configured to support a substrate, and each of the plurality of trays is capable of independently rotating relative to the heating base.

A substrate fixing device according to the present invention is a substrate fixing device configured to fix a substrate so that a deposition material evaporated from at least one evaporation source is deposited on the substrate. The substrate fixing device includes a substrate temperature adjustment part configured to transfer heat to the substrate, and a substrate fixing part coupled to one side of the substrate temperature adjustment part and configured to fix the substrate, in which the substrate fixing part fixes the substrate so that a front surface of the substrate is exposed in a direction toward the evaporation source, and in which a space is formed between the substrate fixing part and a rear surface of the substrate.

The present disclosure relates to a susceptor having a generally circular body having a face with a radially inward section and a radially outward section which includes a substrate supporting surface elevated relative to the radially inward section. A sidewall surrounds the substrate supporting surface which upon retention of a substrate on the radially outward section, the sidewall surrounds the substrate. The sidewall includes a plurality of humps which protrude from the top surface of the sidewall. Advantageously, the plurality of humps may aid in even thickness of deposition of material at the edge of the substrate.

The present disclosure relates to a susceptor having a generally circular body having a face with a radially inward section and a radially outward section which includes a substrate supporting surface elevated relative to the radially inward section. A sidewall surrounds the substrate supporting surface which upon retention of a substrate on the radially outward section, the sidewall surrounds the substrate. The sidewall includes a plurality of humps which protrude from the top surface of the sidewall. Advantageously, the plurality of humps may aid in even thickness of deposition of material at the edge of the substrate.

A substrate support assembly suitable for use in a reactor including a common processing and substrate transfer region is disclosed. The substrate support assembly includes a susceptor and one or more lift pins that can be used to lower a substrate onto a surface of the susceptor and raise the substrate from the surface, to allow transfer of the substrate from the processing region, without raising or lowering the susceptor.

A substrate support assembly suitable for use in a reactor including a common processing and substrate transfer region is disclosed. The substrate support assembly includes a susceptor and one or more lift pins that can be used to lower a substrate onto a surface of the susceptor and raise the substrate from the surface, to allow transfer of the substrate from the processing region, without raising or lowering the susceptor.

The present disclosure generally relates to a process chamber for processing of semiconductor substrates. The process chamber includes an upper lamp assembly, a lower lamp assembly, a substrate support, an upper window disposed between the substrate support and the upper lamp assembly, a lower window disposed between the lower lamp assembly and the substrate support, an inject ring, and a base ring. Each of the upper lamp assembly and the lower lamp assembly include vertically oriented lamp apertures for the placement of heating lamps therein. The inject ring includes gas injectors disposed therethrough and the base ring includes a substrate transfer passage, a lower chamber exhaust passage, and one or more upper chamber exhaust passages. The gas injectors are disposed over the substrate transfer passage and across from the lower chamber exhaust passage and the one or more upper chamber exhaust passages.

The present disclosure generally relates to a process chamber for processing of semiconductor substrates. The process chamber includes an upper lamp assembly, a lower lamp assembly, a substrate support, an upper window disposed between the substrate support and the upper lamp assembly, a lower window disposed between the lower lamp assembly and the substrate support, an inject ring, and a base ring. Each of the upper lamp assembly and the lower lamp assembly include vertically oriented lamp apertures for the placement of heating lamps therein. The inject ring includes gas injectors disposed therethrough and the base ring includes a substrate transfer passage, a lower chamber exhaust passage, and one or more upper chamber exhaust passages. The gas injectors are disposed over the substrate transfer passage and across from the lower chamber exhaust passage and the one or more upper chamber exhaust passages.

Systems and apparatus for a reduced mass substrate support are disclosed, according to certain embodiments. A front side pocket is provided for support of a substrate, while a backside pocket is provided that reduces the mass of the substrate support. By providing the backside pocket, the mass of the overall substrate support is reduced, providing faster thermal cycling times for the substrate support and reducing the weight of the substrate support for transport. Lift pin systems, according to disclosed embodiments, are compatible with existing pedestal systems by providing a hollow extension from each lift pin hole that extends from a bottom of the backside pocket to provide support for lift pin insertion and operation.