Patent application number | Description | Published |
20080196661 | PLASMA SPRAYED DEPOSITION RING ISOLATOR - A substrate processing chamber component including a deposition ring for protecting exposed portions of a substrate support pedestal, wherein the deposition ring includes a metal portion and a ceramic isolator portion. The ceramic isolator portion may be a plasma coated ceramic isolator coating, and the metal portion may be made of stainless steel. The ceramic isolator portion may be made of a ceramic such as alumina, yttria, aluminum nitride, titania, zirconia, and combinations thereof. | 08-21-2008 |
20100059366 | TEXTURED CHAMBER SURFACE - A method of fabricating a process chamber component having a textured surface with raised features. The method comprises providing a process chamber component having a surface, and forming a patterned resist layer on the process chamber component, the patterned resist layer having apertures that expose portions of the surface of the process chamber component therethrough. A textured surface having raised features is formed on the process chamber component by propelling grit particles with a gas that is pressurized to a pressure sufficiently high to cause the grit particles to erode and remove material from the surface. | 03-11-2010 |
20130056347 | COOLING RING FOR PHYSICAL VAPOR DEPOSITION CHAMBER TARGET - Apparatus and method for physical vapor deposition are provided. In some embodiments, a cooling ring to cool a target in a physical vapor deposition chamber may include an annular body having a central opening; an inlet port coupled to the body; an outlet port coupled to the body; a coolant channel disposed in the body and having a first end coupled to the inlet port and a second end coupled to the outlet port; and a cap coupled to the body and substantially spanning the central opening, wherein the cap includes a center hole. | 03-07-2013 |
20140268479 | SUBSTRATE SUPPORT CHUCK COOLING FOR DEPOSITION CHAMBER - A substrate support chuck for use in a substrate processing system is provided herein. In some embodiments, a substrate support for use in a substrate processing chamber may include an electrostatic chuck having a top substrate support surface and a bottom surface, and a cooling ring assembly having a central opening disposed proximate the bottom surface of the electrostatic chuck, the cooling ring assembly including, a cooling section having a top surface thermally coupled to the bottom surface of the electrostatic chuck, the cooling section having a cooling channel formed in a bottom surface of the cooling section, and a cap coupled to a bottom surface of the cooling section and fluidly sealing the cooling channel formed in the cooling section. | 09-18-2014 |
Patent application number | Description | Published |
20090120462 | Fabricating and cleaning chamber components having textured surfaces - A method of fabricating a substrate processing chamber component involves forming a component having a textured surface and sweeping a jet of pressurized fluid across the textured surface of the component. The jet of fluid is pressurized sufficiently high to dislodge substantially all the particles from the textured surface. The method can be applied to dislodge grit particles from textured exposed surfaces formed by electromagnetic energy beam scanning and grit blasting. The method can also be applied to remove loosely adhered coating particles from the textured surfaces of coated components. | 05-14-2009 |
20100108641 | LAVACOAT PRE-CLEAN AND PRE-HEAT - Embodiments described herein provide methods of surface preparation using an electromagnetic beam prior to modification of the surface of a component which advantageously improve the quality of the final texture in those places and correspondingly reduces particle contamination. In one embodiment a method of providing a texture to a surface of a component for use in a semiconductor processing chamber is provided. The method comprises defining a plurality of regions on the surface of a component, moving an electromagnetic beam to a first region of the plurality of regions, scanning the electromagnetic beam across a surface of the first region to heat the surface of the first region, and scanning the electromagnetic beam across the heated surface of the first region to form a feature. | 05-06-2010 |
20110198417 | PROCESS CHAMBER GAS FLOW IMPROVEMENTS - Embodiments of the present invention generally provide plasma etch process chamber improvements. An improved gas injection nozzle is provided for use at a central location of the lid of the chamber. The gas injection nozzle may be used in an existing plasma etch chamber and is configured to provide a series of conic gas flows across the surface of a substrate positioned within the chamber. In one embodiment, an improved exhaust kit for use in the plasma etch chamber is provided. The exhaust kit includes apparatus that may be used in an existing plasma etch chamber and is configured to provide annular flow of exhaust gases from the processing region of the chamber. | 08-18-2011 |
20120107520 | Removing Residues from Substrate Processing Components - Residues are removed from a surface of a substrate processing component which has a polymer coating below the residues. In one version, the component surfaces are contacted with an organic solvent to remove the residues without damaging or removing the polymer coating. The residues can be process residues or adhesive residues. The cleaning process can be conducted as part of a refurbishment process. In another version, the residues are ablated by scanning a laser across the component surface. In yet another version, the residues are vaporized by scanning a plasma cutter across the surface of the component. | 05-03-2012 |
20140076354 | REMOVING RESIDUES FROM SUBSTRATE PROCESSING COMPONENTS - Residues are removed from a surface of a substrate processing component which has a polymer coating below the residues. In one version, the component surfaces are contacted with an organic solvent to remove the residues without damaging or removing the polymer coating. The residues can be process residues or adhesive residues. The cleaning process can be conducted as part of a refurbishment process. In another version, the residues are ablated by scanning a laser across the component surface. In yet another version, the residues are vaporized by scanning a plasma cutter across the surface of the component. | 03-20-2014 |
20140102369 | PLASMA SPRAYED DEPOSITION RING ISOLATOR - A substrate processing chamber component including a deposition ring for protecting exposed portions of a substrate support pedestal, wherein the deposition ring includes a metal portion and a ceramic isolator portion. The ceramic isolator portion may be a plasma coated ceramic isolator coating, and the metal portion may be made of stainless steel. The ceramic isolator portion may be made of a ceramic such as alumina, yttria, aluminum nitride, titania, zirconia, and combinations thereof. | 04-17-2014 |
20140374509 | PROCESS CHAMBER GAS FLOW IMPROVEMENTS - Embodiments of the present invention generally provide plasma etch process chamber improvements. An improved gas injection nozzle is provided for use at a central location of the lid of the chamber. The gas injection nozzle may be used in an existing plasma etch chamber and is configured to provide a series of conic gas flows across the surface of a substrate positioned within the chamber. In one embodiment, an improved exhaust kit for use in the plasma etch chamber is provided. The exhaust kit includes apparatus that may be used in an existing plasma etch chamber and is configured to provide annular flow of exhaust gases from the processing region of the chamber. | 12-25-2014 |
20150047975 | SPUTTERING TARGET WITH BACKSIDE COOLING GROOVES - Implementations of the present disclosure relate to a sputtering target for a sputtering chamber used to process a substrate. In one implementation, a sputtering target for a sputtering chamber is provided. The sputtering target comprises a sputtering plate with a backside surface having radially inner, middle and outer regions and an annular-shaped backing plate mounted to the sputtering plate. The backside surface has a plurality of circular grooves which are spaced apart from one another and at least one arcuate channel cutting through the circular grooves and extending from the radially inner region to the radially outer region of sputtering plate. The annular-shaped backing plate defines an open annulus exposing the backside surface of the sputtering plate. | 02-19-2015 |
20150048735 | ENCAPSULATED MAGNETRON - Embodiments of the present invention generally provide a magnetron that is encapsulated by a material that is tolerant of heat and water. In one embodiment, the entire magnetron is encapsulated. In another embodiment, the magnetron includes magnetic pole pieces, and the magnetic pole pieces are not covered by the encapsulating material. | 02-19-2015 |