| Patent application number | Description | Published |
|---|
| 20090014127 | SYSTEMS FOR PLASMA ENHANCED CHEMICAL VAPOR DEPOSITION AND BEVEL EDGE ETCHING - Embodiments described herein relate to a substrate processing system that integrates substrate edge processing capabilities. Illustrated examples of the processing system include, without limitations, a factory interface, a loadlock chamber, a transfer chamber, and one or more twin process chambers having two or more processing regions that are isolatable from each other and share a common gas supply and a common exhaust pump. The processing regions in each twin process chamber include separate gas distribution assemblies and RF power sources to provide plasma at selective regions on a substrate surface in each processing region. Each twin process chamber is thereby configured to allow multiple, isolated processes to be performed concurrently on at least two substrates in the processing regions. | 01-15-2009 |
| 20090017228 | APPARATUS AND METHOD FOR CENTERING A SUBSTRATE IN A PROCESS CHAMBER - The present invention comprises an apparatus and method for centering a substrate in a process chamber. In one embodiment, the apparatus comprises a substrate support having a support surface adapted to receive the placement of a substrate and a reference axis substantially perpendicular to the support surface, and a plurality of centering members extending above the support surface. Each centering member is biased into a first position and is movable to a second position by interacting with an opposing member. A movement between the first position and the second position thereby causes each centering member to releasably engage with a peripheral edge of the substrate to push the substrate in a direction toward the reference axis. | 01-15-2009 |
| 20090017635 | APPARATUS AND METHOD FOR PROCESSING A SUBSTRATE EDGE REGION - The present invention comprises an apparatus and method for etching at a substrate edge region. In one embodiment, the apparatus comprises a chamber having a process volume, a substrate support arranged inside the process volume and having a substrate support surface, a plasma generator coupled to the chamber and configured to supply an etching agent in a plasma phase to a peripheral region of the substrate support surface, and a gas delivery assembly coupled to a gas source for generating a radial gas flow over the substrate support surface from an approximately central region of the substrate support surface toward the peripheral region of the substrate support surface. | 01-15-2009 |
| 20090044753 | METHODS TO IMPROVE THE IN-FILM DEFECTIVITY OF PECVD AMORPHOUS CARBON FILMS - An article having a protective coating for use in semiconductor applications and methods for making the same are provided. In certain embodiments, a method of coating an aluminum surface of an article utilized in a semiconductor processing chamber is provided. The method comprises providing a processing chamber; placing the article into the processing chamber; flowing a first gas comprising a carbon source into the processing chamber; flowing a second gas comprising a nitrogen source into the processing chamber; forming a plasma in the chamber; and depositing a coating material on the aluminum surface. In certain embodiments, the coating material comprises an amorphous carbon nitrogen containing layer. In certain embodiments, the article comprises a showerhead configured to deliver a gas to the processing chamber. | 02-19-2009 |
| 20110090613 | APPARATUS AND METHOD FOR SUBSTRATE CLAMPING IN A PLASMA CHAMBER - The present invention generally provides methods and apparatus for monitoring and maintaining flatness of a substrate in a plasma reactor. Certain embodiments of the present invention provide a method for processing a substrate comprising positioning the substrate on an electrostatic chuck, applying an RF power between the an electrode in the electrostatic chuck and a counter electrode positioned parallel to the electrostatic chuck, applying a DC bias to the electrode in the electrostatic chuck to clamp the substrate on the electrostatic chuck, and measuring an imaginary impedance of the electrostatic chuck. | 04-21-2011 |
| 20110104400 | METHOD FOR DEPOSITING AN AMORPHOUS CARBON FILM WITH IMPROVED DENSITY AND STEP COVERAGE - A method for depositing an amorphous carbon layer on a substrate includes the steps of positioning a substrate in a chamber, introducing a hydrocarbon source into the processing chamber, introducing a heavy noble gas into the processing chamber, and generating a plasma in the processing chamber. The heavy noble gas is selected from the group consisting of argon, krypton, xenon, and combinations thereof and the molar flow rate of the noble gas is greater than the molar flow rate of the hydrocarbon source. A post-deposition termination step may be included, wherein the flow of the hydrocarbon source and the noble gas is stopped and a plasma is maintained in the chamber for a period of time to remove particles therefrom. | 05-05-2011 |
| 20110159211 | SHADOW RING FOR MODIFYING WAFER EDGE AND BEVEL DEPOSITION - Embodiments of the invention contemplate a shadow ring that provides increased or decreased and more uniform deposition on the edge of a wafer. By removing material from the top and/or bottom surfaces of the shadow ring, increased edge deposition and bevel coverage can be realized. In one embodiment, the material on the bottom surface is reduced by providing a recessed slot on the bottom surface. By increasing the amount of material of the shadow ring, the edge deposition and bevel coverage is reduced. Another approach to adjusting the deposition at the edge of the wafer includes increasing or decreasing the inner diameter of the shadow ring. The material forming the shadow ring may also be varied to change the amount of deposition at the edge of the wafer. | 06-30-2011 |
