Patent application number | Description | Published |
20080286982 | PLASMA IMMERSION ION IMPLANTATION WITH HIGHLY UNIFORM CHAMBER SEASONING PROCESS FOR A TOROIDAL SOURCE REACTOR - A method is provided for performing plasma immersion ion implantation with a highly uniform seasoning film on the interior of a reactor chamber having a ceiling and a cylindrical side wall and a wafer support pedestal facing the ceiling. The method includes providing a gas distribution ring with plural gas injection orifices on a periphery of a wafer support pedestal, the orifices facing radially outwardly from the wafer support pedestal. Silicon-containing gas is introduced through the gas distribution orifices of the ring to establish a radially outward flow pattern of the silicon-containing gas. The reactor includes pairs of conduit ports in the ceiling adjacent the side wall at opposing sides thereof and respective external conduits generally spanning the diameter of the chamber and coupled to respective pairs of the ports. The method further includes injecting oxygen gas through the conduit ports into the chamber to establish an axially downward flow pattern of oxygen gas in the chamber. RF power is coupled into the interior of each of the conduits to generate a toroidal plasma current of Si | 11-20-2008 |
20090195777 | DOSIMETRY USING OPTICAL EMISSION SPECTROSCOPY/RESIDUAL GAS ANALYZER IN CONJUNCTION WITH ION CURRENT - The present invention generally provides methods and apparatus for controlling ion dosage in real time during plasma processes. In one embodiment, ion dosages may be controlled using in-situ measurement of the plasma from a mass distribution sensor combined with in-situ measurement from an RF probe. | 08-06-2009 |
20090197401 | Plasma immersion ion implantation method using a pure or nearly pure silicon seasoning layer on the chamber interior surfaces - Plasma immersion ion implantation employing a very high RF bias voltage on an electrostatic chuck to attain a requisite implant depth profile is carried out by first depositing a partially conductive silicon-containing seasoning layer over the interior chamber surfaces prior to wafer introduction. | 08-06-2009 |
20090203197 | NOVEL METHOD FOR CONFORMAL PLASMA IMMERSED ION IMPLANTATION ASSISTED BY ATOMIC LAYER DEPOSITION - Embodiments of the invention provide a novel apparatus and methods for forming a conformal doped layer on the surface of a substrate. A substrate is provided to a process chamber, and a layer of dopant source material is deposited by plasma deposition, atomic layer deposition, or plasma-assisted atomic layer deposition. The substrate is then subjected to thermal processing to activate and diffuse dopants into the substrate surface. | 08-13-2009 |
20110159673 | NOVEL METHOD FOR CONFORMAL PLASMA IMMERSED ION IMPLANTATION ASSISTED BY ATOMIC LAYER DEPOSITION - Embodiments of the invention provide a novel apparatus and methods for forming a conformal doped layer on the surface of a substrate. A substrate is provided to a process chamber, and a layer of dopant source material is deposited by plasma deposition, atomic layer deposition, or plasma-assisted atomic layer deposition. The substrate is then subjected to thermal processing to activate and diffuse dopants into the substrate surface. | 06-30-2011 |
20110207307 | PLASMA IMMERSION ION IMPLANTATION METHOD USING A PURE OR NEARLY PURE SILICON SEASONING LAYER ON THE CHAMBER INTERIOR SURFACES - Plasma immersion ion implantation employing a very high RF bias voltage on an electrostatic chuck to attain a requisite implant depth profile is carried out by first depositing a partially conductive silicon-containing seasoning layer over the interior chamber surfaces prior to wafer introduction. | 08-25-2011 |
20120171391 | THIN FILM DEPOSITION USING MICROWAVE PLASMA - Embodiments of the present invention generally provide deposition processes for a silicon-containing dielectric layer using an improved microwave-assisted CVD chamber. In one embodiment, a method of processing a substrate in a processing chamber is provided. The method generally includes applying a microwave power to an antenna coupled to a microwave source disposed within the processing chamber, wherein the microwave source is disposed relatively above a gas feeding source configured to provide a gas distribution coverage covering substantially an entire surface of the substrate, and exposing the substrate to a microwave plasma generated from a processing gas provided by the gas feeding source to deposit a silicon-containing layer on the substrate at a temperature lower than about 200 degrees Celsius, the microwave plasma using a microwave power of about 500 milliWatts/cm | 07-05-2012 |
20120326592 | Transmission Line RF Applicator for Plasma Chamber - A transmission line RF applicator apparatus and method for coupling RF power to a plasma in a plasma chamber. The apparatus comprises an inner conductor and one or two outer conductors. The main portion of each of the one or two outer conductors includes a plurality of apertures that extend between an inner surface and an outer surface of the outer conductor. | 12-27-2012 |
20130068161 | GAS DELIVERY AND DISTRIBUTION FOR UNIFORM PROCESS IN LINEAR-TYPE LARGE-AREA PLASMA REACTOR - An apparatus for introducing gas into a processing chamber comprising one or more gas distribution tubes having gas-injection holes which may be larger in size, greater in number, and/or spaced closer together at sections of the gas introduction tubes where greater gas conductance through the gas-injection holes is desired. An outside tube having larger gas-injection holes may surround each gas distribution tube. The gas distribution tubes may be fluidically connected to a vacuum foreline to facilitate removal of gas from the gas distribution tube at the end of a process cycle. | 03-21-2013 |
20130087783 | METHODS FOR DEPOSITING A SILICON CONTAINING LAYER WITH ARGON GAS DILUTION - Embodiments of the disclosure generally provide methods of forming a silicon containing layers in TFT devices. The silicon can be used to form the active channel in a LTPS TFT or be utilized as an element in a gate dielectric layer, a passivation layer or even an etch stop layer. The silicon containing layer is deposited by a vapor deposition process whereby an inert gas, such as argon, is introduced along with the silicon precursor. The inert gas functions to drive out weak, dangling silicon-hydrogen bonds or silicon-silicon bonds so that strong silicon-silicon or silicon-oxygen bonds remain to form a substantially hydrogen free silicon containing layer. | 04-11-2013 |
20130221833 | Transmission line RF applicator for plasma chamber - A transmission line RF applicator apparatus and method for coupling RF power to a plasma in a plasma chamber. The apparatus comprises an inner conductor and one or two outer conductors. The main portion of each of the one or two outer conductors includes a plurality of apertures that extend between an inner surface and an outer surface of the outer conductor. | 08-29-2013 |
20130302999 | SIOX PROCESS CHEMISTRY DEVELOPMENT USING MICROWAVE PLASMA CVD - Methods for processing a substrate are described herein. Methods can include positioning a substrate in a processing chamber, maintaining the processing chamber at a temperature below 400° C., flowing a reactant gas comprising either a silicon hydride or a silicon halide and an oxidizing precursor into the process chamber, applying a microwave power to create a microwave plasma from the reactant gas, and depositing a silicon oxide layer on at least a portion of the exposed surface of a substrate. | 11-14-2013 |
20140273312 | PIN HOLE EVALUATION METHOD OF DIELECTRIC FILMS FOR METAL OXIDE SEMICONDUCTOR TFT - The present invention generally relates to methods measuring pinhole determination. In one aspect, a method of measuring pinholes in a stack, such as a TFT stack, is provided. The method can include forming an active layer on a deposition surface of a substrate, forming a dielectric layer over the active layer, delivering an etchant to at least the dielectric layer, to etch both the dielectric layer and any pinholes formed therein and optically measuring the pinhole density of the etched dielectric layer using the active layer. | 09-18-2014 |