Patent application number | Description | Published |
20090155025 | LIFT PIN FOR SUBSTRATE PROCESSING - A lift pin is provided for manipulating a substrate above a support surface of a substrate support and uniformly transferring heat from the substrate support to the substrate. The lift pin includes a pin shaft. The pin shaft includes a cross-section having at least three equal edges and round corners configured alternatively. A pin head is an end portion of the pin shaft, wherein the pin head has a convex support surface larger than the cross-section of the pin shaft. A flat portion is disposed on a central area of the convex support surface for directly contacting the substrate. | 06-18-2009 |
20100011785 | TUBE DIFFUSER FOR LOAD LOCK CHAMBER - Embodiments disclosed herein generally provide a load lock chamber capable of controlling the temperature of the substrate therein. The load lock chamber may have one or more cooling fluid introduction passages that extend across the chamber. Cooling fluid, such as nitrogen gas, may flow through the cooling fluid passage and enter the load lock chamber. The cooling fluid passages may have openings to permit the cooling fluid to exit the passages and enter the load lock chamber. The openings may be arranged to permit a greater amount of cooling fluid to enter the load lock at locations corresponding to the substrate positions that are in contact with an end effector that places the substrate into the load lock chamber. Additionally, the openings may be arranged to permit a greater amount if cooling fluid to enter the load lock chamber in the center of the chamber as compared to the edge of the chamber. | 01-21-2010 |
20100050534 | SLOTTED TSSL DOOR TO COUPLE O-RING WITH MOVING MATING PART - Embodiments disclosed herein generally relate to a slit valve door assembly for sealing an opening in a chamber. A slit valve door that is pressed against the chamber to seal the slit valve opening moves with the chamber as the slit valve opening shrinks so that an o-ring pressed between the slit valve door and the chamber may move with the slit valve door and the chamber. Thus, less rubbing of the o-ring against the chamber may occur. With less rubbing, fewer particles may be generated and the o-ring lifetime may be extended. With a longer lifetime for the o-ring, substrate throughput may be increased. | 03-04-2010 |
20100054905 | LOAD LOCK CHAMBER FOR LARGE AREA SUBSTRATE PROCESSING SYSTEM - The present invention generally includes a load lock chamber for transferring large area substrates into a vacuum processing chamber. The load lock chamber may have one or more separate, environmentally isolated environments. Each processing environment may have a plurality exhaust ports for drawing a vacuum. The exhaust ports may be located at the corners of the processing environment. When a substrate is inserted into the load lock chamber from the factory interface, the environment may need to be evacuated. Due to the exhaust ports located at the corners of the environment, any particles or contaminants that may be present may be pulled to the closest corner and out of the load lock chamber without being pulled across the substrate. Thus, substrate contamination may be reduced. | 03-04-2010 |
20100122982 | ELECTRON BEAM WELDING OF LARGE VACUUM CHAMBER BODY HAVING A HIGH EMISSIVITY COATING - Embodiments disclosed herein relate to a large vacuum chamber body that has been welded together. The chamber body may have a high emissivity coating on at least one surface therein. Due to the large size of the chamber body, the chamber body may be formed by welding several pieces together rather than forging the body from a single piece of metal. The pieces may be welded together at a location spaced from the corner of the body, which may be under the greatest stress during evacuation, to ensure that the weld, which may be the weakest point in the body, does not fail. At least one surface of the chamber body may be coated with a high emissivity coating to aid in heat transfer from incoming, heated substrates. The high emissivity coating may increase substrate throughput by lowering the time that may be needed to reduce the substrate temperature. | 05-20-2010 |
20110089166 | TEMPERATURE MEASUREMENT AND CONTROL OF WAFER SUPPORT IN THERMAL PROCESSING CHAMBER - The present invention provides apparatus and methods for achieving uniform heating to a substrate during a rapid thermal process. More particularly, the present invention provides apparatus and methods for controlling the temperature of an edge ring supporting a substrate during a rapid thermal process to improve temperature uniformity across the substrate. | 04-21-2011 |
20110250764 | Method of thermally treating silicon with oxygen - A method and apparatus for oxidizing materials used in semiconductor integrated circuits, for example, for oxidizing silicon to form a dielectric gate. An ozonator is capable of producing a stream of least 70% ozone. The ozone passes into an RTP chamber through a water-cooled injector projecting into the chamber. Other gases such as hydrogen to increase oxidation rate, diluent gas such as nitrogen or O | 10-13-2011 |
20120031332 | Water cooled gas injector - A method and apparatus for oxidizing materials used in semiconductor integrated circuits, for example, for oxidizing silicon to form a dielectric gate. An ozonator is capable of producing a stream of least 70% ozone. The ozone passes into an RTP chamber through a water-cooled injector projecting into the chamber. Other gases such as hydrogen to increase oxidation rate, diluent gas such as nitrogen or O | 02-09-2012 |
20120205878 | HIGH TEMPERATURE VACUUM CHUCK ASSEMBLY - A vacuum chuck and a process chamber equipped with the same are provided. The vacuum chuck assembly comprises a support body, a plurality of protrusions, a plurality of channels, at least one support member supporting the support body, at least one resilient member coupled with the support member, a hollow shaft supporting the support body, at least one electrical connector disposed through the hollow shaft, and an air-cooling apparatus. The support body has a support surface for holding a substrate (such as a wafer) thereon. The protrusions are formed on and project from the support surface for creating a gap between the substrate and the support surface. The channels are formed on the support surface for generating reduced pressure in the gap. The air-cooling apparatus is used for providing air cooling in the vicinity of the electrical connector. | 08-16-2012 |
20130087547 | PARTICLE CONTROL IN LASER PROCESSING SYSTEMS - The present invention generally relates to a laser processing systems for thermally processing substrates. The laser processing systems include a shield disposed between an energy source of the laser processing system and a substrate which is to be thermally processed. The shield includes an optically transparent window disposed adjacent to a cavity within the shield. The optically transparent window allows annealing energy to pass therethrough and to illuminate the substrate. The shield also includes one or more gas inlets and one or more gas outlets for introducing and removing a purge gas from the cavity within the shield. The purge gas is utilized to remove volatized or ablated components during thermal processing, and to provide a gas of predetermined composition, such as oxygen-free, to the thermally processed area. | 04-11-2013 |
20130327764 | ELECTRON BEAM WELDING OF LARGE VACUUM CHAMBER BODY HAVING A HIGH EMISSIVITY COATING - Embodiments disclosed herein relate to a large vacuum chamber body that has been welded together. The chamber body may have a high emissivity coating on at least one surface therein. Due to the large size of the chamber body, the chamber body may be formed by welding several pieces together rather than forging the body from a single piece of metal. The pieces may be welded together at a location spaced from the corner of the body, which may be under the greatest stress during evacuation, to ensure that the weld, which may be the weakest point in the body, does not fail. At least one surface of the chamber body may be coated with a high emissivity coating to aid in heat transfer from incoming, heated substrates. The high emissivity coating may increase substrate throughput by lowering the time that may be needed to reduce the substrate temperature. | 12-12-2013 |
20140023460 | SLIT VALVE DOOR WITH MOVING MATING PART - Embodiments disclosed herein generally relate to a slit valve door assembly for sealing an opening in a chamber. A slit valve door that is pressed against the chamber to seal the slit valve opening moves with the chamber as the slit valve opening shrinks so that an o-ring pressed between the slit valve door and the chamber may move with the slit valve door and the chamber. Thus, less rubbing of the o-ring against the chamber may occur. With less rubbing, fewer particles may be generated and the o-ring lifetime may be extended. With a longer lifetime for the o-ring, substrate throughput may be increased. | 01-23-2014 |
20140079376 | THERMAL REACTOR WITH IMPROVED GAS FLOW DISTRIBUTION - Embodiments of the present invention provide apparatus and method for improving gas distribution during thermal processing. One embodiment of the present invention provides an apparatus for processing a substrate comprising a chamber body defining a processing volume, a substrate support disposed in the processing volume, wherein the substrate support is configured to support and rotate the substrate, a gas inlet assembly coupled to an inlet of the chamber body and configured to provide a first gas flow to the processing volume, and an exhaust assembly coupled to an outlet of the chamber body, wherein the gas inlet assembly and the exhaust assembly are disposed on opposite sides of the chamber body, and the exhaust assembly defines an exhaust volume configured to extend the processing volume. | 03-20-2014 |
20150013771 | SUBSTRATE PROCESSING SYSTEM, VALVE ASSEMBLY, AND PROCESSING METHOD - In one aspect, a valve assembly adapted to seal an opening in a chamber is disclosed. Valve assembly includes a housing being adapted for coupling to a chamber surface having the opening therein, the housing including a threshold portion positioned adjacent to the chamber opening, the threshold portion having one or more inlets adapted to supply gas to an interior region of the housing adjacent to the chamber opening; and a sealing surface adapted to selectively (1) seal the opening, and (2) retract from the opening so as not to obstruct substrate passage. Numerous other system aspects are provided, as are methods and computer program products in accordance with these and other aspects. | 01-15-2015 |
20150050819 | SUPPORT CYLINDER FOR THERMAL PROCESSING CHAMBER - Embodiments of the disclosure generally relate to a support cylinder used in a thermal process chamber. In one embodiment, the support cylinder comprises a ring body having an inner peripheral surface and an outer peripheral surface, wherein the ring body comprises an opaque quartz glass material and wherein the ring body is coated with an optical transparent layer. The optical transparent layer has a coefficient of thermal expansion that is substantially matched or similar to the opaque quartz glass material to reduce thermal expansion mismatch that may cause thermal stress under high thermal loads. In one example, the opaque quartz glass material is synthetic black quartz and the optical transparent layer comprises a clear fused quartz material. | 02-19-2015 |
20150070686 | TEST APPARATUS FOR REFLECTIVE CAVITY CHARACTERIZATION - An apparatus for reflectivity measurement is provided. The apparatus generally measures reflectivity characteristics of a reflective surface, such as a reflective cavity of a light array. The apparatus generally comprises a body defining a volume and a light emitting element disposed outside the volume. A sensor coupled to the body detects light reflected from a reflective surface. Various embodiments provide positioning of the apparatus relative to a light array having a reflective cavity. | 03-12-2015 |