Patent application number | Description | Published |
20090269933 | Substrate Processing Apparatus and Semiconductor Device Manufacturing Method - A substrate processing apparatus comprises a processing chamber for storing a substrate and performing a specified processing on the substrate, a substrate holding jig for holding the substrate in the processing chamber, a placement stand capable of moving the substrate holding jig inside and outside the processing chamber while mounting the substrate holding jig, a substrate holding jig movement mechanism for moving the substrate holding jig to a location different from the placement stand while holding the substrate holding jig, and a substrate holding jig movement suppression mechanism for suppressing vertical and horizontal movement of the substrate holding jig in order to keep the substrate holding jig mounted on the placement unit of the substrate holding jig movement mechanism. | 10-29-2009 |
20110204036 | HEAT TREATMENT APPARATUS - Provided is a heat treatment apparatus having a temperature detection unit installed outside a reaction chamber and capable of preventing a process gas from contacting the temperature detection unit to form a film and improving reliability and reproduction of a measurement value of the temperature detection unit. The heat treatment apparatus for growing a single crystalline film or polycrystalline films on a plurality of substrates includes a boat configured to hold the plurality of substrates, a cylindrical heat generating material ( | 08-25-2011 |
20110210118 | SUBSTRATE PROCESSING APPARATUS, METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SUBSTRATE - There are provided a substrate processing apparatus and a method of manufacturing a substrate in which induction heating of members made of a metal material and installed outside an induction coil is suppressed and safety may be improved during processing of a substrate. The substrate processing apparatus includes: a reaction tube for accommodating a substrate; an induction heating unit installed to surround an outer circumference of the reaction tube; a shielding unit installed to surround an outside of the induction heating unit; a gas supply unit for supplying at least a source gas into the reaction tube; and a controller for processing the substrate by heating an inside of the reaction tube using the induction heating unit, and supplying at least the source gas from the gas supply unit into the reaction tube. | 09-01-2011 |
20120067274 | FILM FORMING APPARATUS, WAFER HOLDER, AND FILM FORMING METHOD - A wafer holder used in a film forming apparatus is disclosed. The wafer holder including a boat holding a plurality of wafers and a reaction gas supply part supplying a reaction gas from a side surface of the plurality of wafers held by the boat, and the wafer holder further includes an upper wafer holder being placed to cover an upper surface of each of the plurality of wafers when the plurality of wafer is supported by the boat and including a gas introduction suppression part suppressing an introduction of the reaction gas onto the upper surface of each the plurality of wafers by surrounding each of the plurality of wafers. | 03-22-2012 |
20120156886 | SUBSTRATE PROCESSING APPARATUS, METHOD OF MANUFACTURING SUBSTRATE, AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - Production efficiency of a substrate (in particular, a substrate on which a SiC epitaxial film is formed) is improved and formation of the film inside a gas supply port is suppressed. This is accomplished by a substrate processing apparatus including a reaction chamber configured to accommodate a plurality of substrates | 06-21-2012 |
20120220107 | SUBSTRATE PROCESSING APPARATUS, WAFER HOLDER, AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - Provided is a substrate processing apparatus having a stack structure of wafers that can endure a high temperature without bad influence on film-forming precision. The stack structure includes a holder base ( | 08-30-2012 |
20120220108 | SUBSTRATE PROCESSING APPARATUS, AND METHOD OF MANUFACTURING SUBSTRATE - When processing such as SiC epitaxial growth is performed at an ultrahigh temperature of 1500° C. to 1700° C., a film-forming gas can be decreased to heat-resistant temperature of a manifold and film quality uniformity can be improved. A substrate processing apparatus includes a reaction chamber for processing a plurality of substrates, a boat for holding the plurality of substrates, a gas supply nozzle for supplying a film-forming gas to the plurality of substrates, an exhaust port for exhausting the film-forming gas supplied into the reaction chamber, a heat exchange part which defines a second flow path narrower than a first flow path defined by an inner wall of the reaction chamber and the boat, and a gas discharge part installed under the lowermost substrate of the plurality of substrates. | 08-30-2012 |
20130042803 | Substrate Processing Apparatus and Method of Manufacturing Semiconductor Device - A substrate processing apparatus includes: a process chamber having an object to be heated therein and configured to process a plurality of substrates; a substrate holder configured to hold the substrates with an interval therebetween in a vertical direction in the process chamber; a first heat exchange unit supporting the substrate holder from a lower side thereof in the process chamber and configured to perform a heat exchange with a gas in the process chamber; a second heat exchange unit provided in the process chamber, the second heat exchange unit being horizontally spaced apart from the first heat exchange unit with a gap therebetween and being configured to perform a heat exchange with the gas in the process chamber; and an induction heating unit configured to subject the object to be heated to an induction heating from an outer side of the object to be heated. | 02-21-2013 |
20130330930 | SUBSTRATE PROCESSING APPARATUS, METHOD FOR MANUFACTURING SUBSTRATE, AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A substrate processing apparatus includes: a processing chamber that accommodates a substrate; a heating portion that is provided so as to surround a accommodating region of the substrate within the processing chamber; a gas nozzle that is provided inside the heating portion and that supplies a processing gas to the accommodating region of the substrate; and a gas heating mechanism that is provided inside the heating portion and that supplies the processing gas from an upstream side of the gas nozzle into the gas nozzle. A ratio of a flow channel circumferential length to a flow channel cross-sectional area in a gas flow channel of the gas heating mechanism is larger than a ratio of a flow channel circumferential length to a flow channel cross-sectional area in a gas flow channel of the gas nozzle. | 12-12-2013 |