Patent application number | Description | Published |
20080210163 | Independent Radiant Gas Preheating for Precursor Disassociation Control and Gas Reaction Kinetics in Low Temperature CVD Systems - A method and apparatus for delivering precursor materials to a processing chamber is described. The apparatus includes a gas distribution assembly having multiple gas delivery zones. Each zone may include a plenum having an inlet for receiving a precursor gas and at least one source of non-thermal energy, such as an infrared light source. The at least one source of non-thermal energy is may be varied to control the intensity of wavelengths from the infrared light source. | 09-04-2008 |
20090211523 | Apparatus to Control Semiconductor Film Deposition Characteristics - Systems and apparatus are disclosed for adjusting the temperature of at least a portion of the surface of a reaction chamber during a film formation process to control film properties. More than one portion of the chamber surface may be temperature-modulated. | 08-27-2009 |
20100275674 | METHODS AND APPARATUS FOR INSITU ANALYSIS OF GASES IN ELECTRONIC DEVICE FABRICATION SYSTEMS - Systems and methods are disclosed that include adjusting a pressure level of a sample gas in a testing chamber, for example, using a pressurized inert reference gas, and determining a composition of the adjusted sample gas. By adjusting the pressure level of the sample gas, the composition of the sample gas may be determined more accurately than otherwise possible. Numerous other aspects are disclosed. | 11-04-2010 |
20110155058 | SUBSTRATE PROCESSING APPARATUS HAVING A RADIANT CAVITY - Methods and apparatus for processing substrates are disclosed herein. In some embodiments, an apparatus for processing a substrate may include a substrate support having a base having a convex surface, an annular ring disposed on the base, and an edge ring disposed on the annular ring to support a substrate, wherein the base, annular ring, and edge ring form a radiant cavity capable of reflecting energy radiated from a backside of a substrate when disposed on the edge ring and wherein the backside of the substrate faces the convex surface of the base. Alternatively or in combination, in some embodiments, the base may include a metal layer encapsulated between a transparent non-metal upper layer and a non-metal lower layer. | 06-30-2011 |
20110217466 | APPARATUS AND METHODS FOR CHEMICAL VAPOR DEPOSITION - Methods and apparatus are disclosed for the formation of vaporizing liquid precursor materials. The methods or apparatus can be used as part of a chemical vapor deposition apparatus or system, for example for forming films on substrates. The methods and apparatus involve providing a vessel for containing a liquid precursor and diffusing element having external cross-section dimensions substantially equal to the internal cross-sectional dimensions of the vessel. | 09-08-2011 |
20110259432 | INDEPENDENT RADIANT GAS PREHEATING FOR PRECURSOR DISASSOCIATION CONTROL AND GAS REACTION KINETICS IN LOW TEMPERATURE CVD SYSTEMS - A method and apparatus for delivering precursor materials to a processing chamber is provided. In one embodiment, a deposition apparatus is provided. The apparatus includes a chamber having a longitudinal axis, and a gas distribution assembly coupled to a sidewall of the chamber. The gas distribution assembly comprises a plurality of plenums coupled to one or more gas sources, an energy source positioned to provide energy to each of the plurality of plenums, and a variable power source coupled to the energy source, wherein the gas distribution assembly provides a flow path through the chamber that is normal to the longitudinal axis of the chamber. | 10-27-2011 |
20120006092 | METHODS AND APPARATUS FOR INSITU ANALYSIS OF GASES IN ELECTRONIC DEVICE FABRICATION SYSTEMS - Systems and methods are disclosed that include adjusting a pressure level of a sample gas in a testing chamber, for example, using a pressurized inert reference gas, and determining a composition of the adjusted sample gas. By adjusting the pressure level of the sample gas, the composition of the sample gas may be determined more accurately than otherwise possible. Numerous other aspects are disclosed. | 01-12-2012 |
20120034761 | METHOD OF REMOVING CONTAMINANTS AND NATIVE OXIDES FROM A SUBSTRATE SURFACE - Embodiments of the present invention generally relate to methods for removing contaminants and native oxides from substrate surfaces. The methods generally include exposing a substrate having an oxide layer thereon to an oxidizing source. The oxidizing source oxidizes an upper portion of the substrate beneath the oxide layer to form an oxide layer having an increased thickness. The oxide layer with the increased thickness is then removed to expose a clean surface of the substrate. The removal of the oxide layer generally includes removal of contaminants present in and on the oxide layer, especially those contaminants present at the interface of the oxide layer and the substrate. An epitaxial layer may then be formed on the clean surface of the substrate. | 02-09-2012 |
20120266819 | SEMICONDUCTOR SUBSTRATE PROCESSING SYSTEM - Apparatus for processing substrates are provided. In some embodiments, a processing system may include a first transfer chamber and a first process chamber coupled to the transfer chamber, the process chamber further comprising a substrate support to support a processing surface of a substrate within the process chamber, an injector disposed to a first side of the substrate support and having a first flow path to provide a first process gas and a second flow path to provide a second process gas independent of the first process gas, wherein the injector provides the first and second process gases across the processing surface of the substrate, a showerhead disposed above the substrate support to provide the first process gas to the processing surface, and an exhaust port disposed to a second side of the substrate support, opposite the injector, to exhaust the first and second process gases from the process chamber. | 10-25-2012 |
20120270384 | APPARATUS FOR DEPOSITION OF MATERIALS ON A SUBSTRATE - Methods and apparatus for deposition of materials on a substrate are provided herein. In some embodiments, an apparatus for processing a substrate may include a process chamber having a substrate support disposed therein to support a processing surface of a substrate, an injector disposed to a first side of the substrate support and having a first flow path to provide a first process gas and a second flow path to provide a second process gas independent of the first process gas, wherein the injector is positioned to provide the first and second process gases across the processing surface of the substrate, a showerhead disposed above the substrate support to provide the first process gas to the processing surface of the substrate, and an exhaust port disposed to a second side of the substrate support, opposite the injector, to exhaust the first and second process gases from the process chamber. | 10-25-2012 |
20130105483 | APPARATUS FOR SUBLIMATING SOLID STATE PRECURSORS | 05-02-2013 |
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 |
20130298832 | SUBSTRATE PROCESSING SYSTEM WITH LAMPHEAD HAVING TEMPERATURE MANAGEMENT - Apparatus for processing a substrate are provided herein. In some embodiments, a lamphead for use in substrate processing includes a monolithic member having a contoured surface; a plurality of reflector cavities disposed in the contoured surface, wherein each reflector cavity is shaped to act as a reflector or to receive a replaceable reflector for a lamp; and a plurality of lamp passages, wherein each lamp passage extends into the monolithic member from one of the plurality of reflector cavities. | 11-14-2013 |
20140175054 | INDEPENDENT RADIANT GAS PREHEATING FOR PRECURSOR DISASSOCIATION CONTROL AND GAS REACTION KINETICS IN LOW TEMPERATURE CVD SYSTEMS - In one embodiment, a gas distribution assembly includes an injection block having at least one inlet to deliver a precursor gas to a plurality of plenums from at least two gas sources, a perforated plate bounding at least one side of each of the plurality of plenums, at least one radiant energy source positioned within each of the plurality of plenums to provide energy to the precursor gas from one or both of the at least two gas sources and flow an energized gas though openings in the perforated plate and into a chamber, and a variable power source coupled to each of the radiant energy sources positioned within each of the plurality of plenums. | 06-26-2014 |
20140199056 | QUARTZ UPPER AND LOWER DOMES - Embodiments of the invention relate to a dome assembly. The dome assembly includes an upper dome comprising a central window, and an upper peripheral flange engaging the central window at a circumference of the central window, wherein a tangent line on an inside surface of the central window that passes through an intersection of the central window and the upper peripheral flange is at an angle of about 8° to about 16° with respect to a planar upper surface of the peripheral flange, a lower dome comprising a lower peripheral flange and a bottom connecting the lower peripheral flange with a central opening, wherein a tangent line on an outside surface of the bottom that passes through an intersection of the bottom and the lower peripheral flange is at an angle of about 8° to about 16° with respect to a planar bottom surface of the lower peripheral flange. | 07-17-2014 |
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 |
20140261185 | EPI BASE RING - Embodiments described herein relate to a base ring assembly for use in a substrate processing chamber. In one embodiment, the base ring assembly comprises a ring body sized to be received within an inner circumference of the substrate processing chamber, the ring body comprising a loading port for passage of the substrate, a gas inlet, and a gas outlet, wherein the gas inlet and the gas outlet are disposed at opposing ends of the ring body, and an upper ring configured to dispose on a top surface of the ring body, and a lower ring configured to dispose on a bottom surface of the ring body, wherein the upper ring, the lower ring, and the ring body, once assembled, are generally concentric or coaxial. | 09-18-2014 |
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 |
20140345525 | COATED LINER ASSEMBLY FOR A SEMICONDUCTOR PROCESSING CHAMBER - Embodiments disclosed herein relate to coated liner assemblies for use in a semiconductor processing chamber. In one embodiment, a liner assembly for use in a semiconductor processing chamber includes a liner body having a cylindrical ring form and a coating layer coating the liner body, wherein the coating layer is opaque at one or more wavelengths between about 200 nm and about 5000 nm. In another embodiment, an apparatus for depositing a dielectric layer on a substrate includes a processing chamber having an interior volume defined in a chamber body of the processing chamber, a liner assembly disposed in the processing chamber, wherein the liner assembly further comprises a liner body having a cylindrical ring form, and a coating layer coating an outer wall of the liner body and facing the chamber body, wherein the coating layer is opaque at one or more wavelengths between about 200 nm and about 5000 nm. | 11-27-2014 |
20140345526 | COATED LINER ASSEMBLY FOR A SEMICONDUCTOR PROCESSING CHAMBER - Embodiments disclosed herein relate to coated liner assemblies for use in a semiconductor processing chamber. In one embodiment, a liner assembly for use in a semiconductor processing chamber includes a liner body having a cylindrical ring form and a coating layer coating the liner body, wherein the coating layer is opaque at one or more wavelengths between about 200 nm and about 5000 nm. In another embodiment, an apparatus for depositing a dielectric layer on a substrate includes a processing chamber having an interior volume defined in a chamber body of the processing chamber, a liner assembly disposed in the processing chamber, wherein the liner assembly further comprises a liner body having a cylindrical ring form, and a coating layer coating an outer wall of the liner body and facing the chamber body, wherein the coating layer is opaque at one or more wavelengths between about 200 nm and about 5000 nm. | 11-27-2014 |
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 |