Patent application number | Description | Published |
20090081884 | METHOD OF IMPROVING OXIDE GROWTH RATE OF SELECTIVE OXIDATION PROCESSES - A method for selective oxidation of silicon containing materials in a semiconductor device is disclosed and claimed. In one aspect, a rapid thermal processing apparatus is used to selectively oxidize a substrate by in-situ steam generation at high pressure in a hydrogen rich atmosphere. Other materials, such as metals and barrier layers, in the substrate are not oxidized. | 03-26-2009 |
20100124249 | TEMPERATURE UNIFORMITY MEASUREMENT DURING THERMAL PROCESSING - Methods and systems for determining a radial differential metrology profile of a substrate heated in a process chamber is provided. Methods and systems for determining an angular or azimuthal differential metrology profile of a rotating substrate in a processing chamber are also provided. The radial and azimuthal differential metrology profiles are applied to adjust a reference metrology profile to provide a Virtual metrology of the process chamber. The virtual metrology is applied to control the performance of the process chamber. | 05-20-2010 |
20100308729 | LAMP WITH INTERNAL FUSE SYSTEM - Embodiments of a lamp having an internal fuse system are provided herein. In some embodiments, a lamp may include a transparent housing; a filament disposed in the housing, the filament having a main body disposed between a first end and a second end of the filament; a first conductor coupled to the filament at the first end of the filament; a first interceptor bar disposed in the housing and beneath the main body of the filament, wherein the first interceptor bar is coupled to the second end of the filament; a second conductor disposed proximate the first end of the filament and conductively coupled to the second end of the filament via the first interceptor bar, wherein the first interceptor bar is positioned such that an electrical short forms between the first and second conductors when the main body of the filament contacts the first interceptor bar. | 12-09-2010 |
20110174212 | EPITAXIAL CHAMBER WITH CROSS FLOW - Methods and apparatus for processing a substrate are provided herein. In some embodiments, an apparatus for processing a substrate includes a process chamber having a substrate support disposed therein to support a processing surface of a substrate at a desired position within the process chamber; a first inlet port to provide a first process gas over the processing surface of the substrate in a first direction; a second inlet port to provide a second process gas over the processing surface of the substrate in a second direction different from the first direction, wherein an azimuthal angle measured between the first direction and the second direction with respect to a central axis of the substrate support is up to about 145 degrees; and an exhaust port disposed opposite the first inlet port to exhaust the first and second process gases from the process chamber. | 07-21-2011 |
20110230060 | METHOD OF IMPROVING OXIDE GROWTH RATE OF SELECTIVE OXIDATION PROCESSES - A method for selective oxidation of silicon containing materials in a semiconductor device is disclosed and claimed. In one aspect, a rapid thermal processing apparatus is used to selectively oxidize a substrate by in-situ steam generation at high pressure in a hydrogen rich atmosphere. Other materials, such as metals and barrier layers, in the substrate are not oxidized. | 09-22-2011 |
20120273005 | OPTICAL ENDPOINT DETECTION SYSTEM - Methods and apparatus for determining an endpoint of a process chamber cleaning process are provided. In some embodiments, a processing system having an endpoint detection system may include a process chamber having internal surfaces requiring periodic cleaning due to processes performed in the process chamber; and an endpoint detection system that includes a light detector positioned to detect light reflected off of a first internal surface of the process chamber; and a controller coupled to the light detector and configured to determine an endpoint of a cleaning process based upon the detected reflected light. | 11-01-2012 |
20130025538 | METHODS AND APPARATUS FOR DEPOSITION PROCESSES - Methods and apparatus for processing a substrate are provided herein. In some embodiments, the apparatus may include a ring to support a substrate in a position for processing, wherein the substrate is supported by a top side of the ring proximate a peripheral edge of the substrate such that a backside of the substrate, when present, is disposed over a central opening of the ring, a substantially planar member disposed below the ring, wherein substantially planar member includes plurality of slots, and a plurality of support arms which support the ring and the substantially planar member, wherein each support arm includes a terminal portion that supports the substantially planar member and extends through a respective one of the plurality of slots to support the ring | 01-31-2013 |
20130178072 | IN-SITU CHAMBER CLEANING FOR AN RTP CHAMBER - A method of cleaning a chamber used for annealing doped wafer substrates. In one embodiment the method provides removing dopants deposited in an annealing chamber after an annealing process of a doped substrate by flowing one or more volatilizing gases into the annealing chamber, applying heat to volatilize the deposited dopants in the annealing chamber, and exhausting the chamber to remove volatilized dopants from the annealing chamber. | 07-11-2013 |
20130255784 | GAS DELIVERY SYSTEMS AND METHODS OF USE THEREOF - Gas delivery systems and methods of use thereof is provided herein. In some embodiments, a gas delivery system may include a first gas supply to provide a first gas along a first flow path; a flow divider disposed in the first flow path to divide the first flow path into a plurality of second flow paths leading to a plurality of corresponding gas delivery zones; and a plurality of second gas supplies respectively coupled to corresponding ones of the second flow paths to independently provide a second gas to respective ones of the plurality of second flow paths. | 10-03-2013 |
20130288460 | PROCESS CHAMBER HAVING SEPARATE PROCESS GAS AND PURGE GAS REGIONS - Embodiments of the present invention generally relate to chambers and methods of processing substrates therein. The chambers generally include separate process gas and purge gas regions. The process gas region and purge gas region each have a respective gas inlet and gas outlet. The methods generally include positioning a substrate on a substrate support within the chamber. The plane of the substrate support defines the boundary between a process gas region and purge gas region. Purge gas is introduced into the purge gas region through at least one purge gas inlet, and removed from the purge gas region using at least one purge gas outlet. The process gas is introduced into the process gas region through at least one process gas inlet, and removed from the process gas region through at least one process gas outlet. The process gas is thermally decomposed to deposit a material on the substrate. | 10-31-2013 |
20140057455 | METHOD OF IMPROVING OXIDE GROWTH RATE OF SELECTIVE OXIDATION PROCESSES - A method for selective oxidation of silicon containing materials in a semiconductor device is disclosed and claimed. In one aspect, a rapid thermal processing apparatus is used to selectively oxidize a substrate by in-situ steam generation at high pressure in a hydrogen rich atmosphere. Other materials, such as metals and barrier layers, in the substrate are not oxidized. | 02-27-2014 |
20140199785 | MULTIZONE CONTROL OF LAMPS IN A CONICAL LAMPHEAD USING PYROMETERS - A method and apparatus for processing a semiconductor substrate is described. The apparatus is a process chamber having an optically transparent upper dome and lower dome. Vacuum is maintained in the process chamber during processing. The upper dome is thermally controlled by flowing a thermal control fluid along the upper dome outside the processing region. Thermal lamps are positioned proximate the lower dome, and thermal sensors are disposed among the lamps. The lamps are powered in zones, and a controller adjusts power to the lamp zones based on data received from the thermal sensors. | 07-17-2014 |
20140273419 | MULTIZONE CONTROL OF LAMPS IN A CONICAL LAMPHEAD USING PYROMETERS - A substrate processing apparatus is provided. The substrate processing apparatus includes a vacuum chamber having a dome and a floor. A substrate support is disposed inside the vacuum chamber. A plurality of thermal lamps are arranged in a lamphead and positioned proximate the floor of the vacuum chamber. A reflector is disposed proximate the dome, where the reflector and the dome together define a thermal control space. The substrate processing apparatus further includes a plurality of power supplies coupled to the thermal lamps and a controller for adjusting the power supplies to control a temperature in the vacuum chamber. | 09-18-2014 |
20140319120 | ABSORBING LAMPHEAD FACE - The embodiments described herein generally relate to a lamphead assembly with an absorbing upper surface in a thermal processing chamber. In one embodiment, a processing chamber includes an upper structure, a lower structure, a base ring connecting the upper structure to the lower structure, a substrate support disposed between the upper structure and the lower structure, a lower structure disposed below the substrate support, a lamphead positioned proximate to the lower structure with one or more fixed lamphead positions formed therein, the lamphead comprising a first surface proximate the lower structure and a second surface opposite the first surface, wherein the first surface comprises an absorptive coating and one or more lamp assemblies each comprising a radiation generating source and positioned in connection with the one or more fixed lamphead positions. | 10-30-2014 |
20140376898 | ABSORBING REFLECTOR FOR SEMICONDUCTOR PROCESSING CHAMBER - Embodiments of the disclosure generally relate to a reflector for use in a thermal processing chamber. In one embodiment, the thermal processing chamber generally includes an upper dome, a lower dome opposing the upper dome, the upper dome and the lower dome defining an internal volume of the processing chamber, a substrate support disposed within the internal volume, and a reflector positioned above and proximate to the upper dome, wherein the reflector has a heat absorptive coating layer deposited on a side of the reflector facing the substrate support. | 12-25-2014 |