Patent application number | Description | Published |
20090308732 | APPARATUS AND METHOD FOR UNIFORM DEPOSITION - Embodiments of the present invention generally relate to an apparatus and method for uniform sputter depositing of materials into the bottom and sidewalls of high aspect ratio features on a substrate. In one embodiment, a sputter deposition system includes a collimator that has apertures having aspect ratios that decrease from a central region of the collimator to a peripheral region of the collimator. In one embodiment, the collimator is coupled to a grounded shield via a bracket member that includes a combination of internally and externally threaded fasteners. In another embodiment, the collimator is integrally attached to a grounded shield. In one embodiment, a method of sputter depositing material includes pulsing the bias on the substrate support between high and low values. | 12-17-2009 |
20090308739 | WAFER PROCESSING DEPOSITION SHIELDING COMPONENTS - Embodiments described herein generally relate to an apparatus and method for uniform sputter depositing of materials into the bottom and sidewalls of high aspect ratio features on a substrate. In one embodiment, a collimator for mechanical and electrical coupling with a shield member positioned between a sputtering target and a substrate support pedestal is provided. The collimator comprises a central region and a peripheral region, wherein the collimator has a plurality of apertures extending therethrough and where the apertures located in the central region have a higher aspect ratio than the apertures located in the peripheral region. | 12-17-2009 |
20100243440 | Mechanism for continuously varying radial position of a magnetron - A continuously variable multi-position magnetron that is rotated about a central axis in back of a sputtering target at a freely selected radius. The position is dynamically controlled from the outside, for example, through a hydraulic actuator connected between a pivoting arm supporting the magnetron and an arm fixed to the shaft, by two coaxial shafts independent controllable from the outside and supporting the magnetron through a frog-leg mechanism, or a cable connected between the pivoting arms and moved by an external slider. The magnetron can be rotated at two, three, or more discrete radii or be moved in a continuous spiral pattern. | 09-30-2010 |
20120231633 | OFF-ANGLED HEATING OF THE UNDERSIDE OF A SUBSTRATE USING A LAMP ASSEMBLY - Disclosed are method and apparatus for treating a substrate. The apparatus is a dual-function process chamber that may perform both a material process and a thermal process on a substrate. The chamber has an annular radiant source disposed between a processing location and a transportation location of the chamber. Lift pins have length sufficient to maintain the substrate at the processing location while the substrate support is lowered below the radiant source plane to afford radiant heating of the substrate. A method of processing a substrate having apertures formed in a first surface thereof includes depositing material on the first surface in the apertures and reflowing the material by heating a second surface of the substrate opposite the first surface. A second material can then be deposited, filling the apertures partly or completely. Alternately, a cyclical deposition/reflow process may be performed. | 09-13-2012 |
20120258602 | Method for Metal Deposition Using Hydrogen Plasma - Methods for formation and treatment of pure metal layers using CVD and ALD techniques are provided. In one or more embodiments, the method includes forming a metal precursor layer and treating the metal precursor layer to a hydrogen plasma to reduce the metal precursor layer to form a metal layer. In one or more embodiments, treating the metal precursor layer includes exposing the metal precursor layer to a high frequency-generated hydrogen plasma. Methods of preventing a hydrogen plasma from penetrating a metal precursor layer are also provided. | 10-11-2012 |
20130055952 | REFLECTIVE DEPOSITION RINGS AND SUBSTRATE PROCESSING CHAMBERS INCORPORTING SAME - Apparatus for improving temperature uniformity across a substrate are provided herein. In some embodiments, a deposition ring for use in a substrate processing system to process a substrate may include an annular body having a first surface, an opposing second surface, and a central opening passing through the first and second surfaces, wherein the second surface is configured to be disposed over a substrate support having a support surface to support a substrate having a given width, and wherein the opening is sized to expose a predominant portion of the support surface; and wherein the first surface includes at least one reflective portion configured to reflect heat energy toward a central axis of the annular body, wherein the at least one reflective portion has a surface area that is about 5 to about 50 percent of a total surface area of the first surface. | 03-07-2013 |
20130139878 | USE OF A1 BARRIER LAYER TO PRODUCE HIGH HAZE ZNO FILMS ON GLASS SUBSTRATES - Embodiments of the invention provide a method for forming a solar cell including forming a layer comprising alumina on a substrate and forming a transparent conductive layer on the layer comprising alumina. The method may also include forming a transparent conductive seed layer on the layer comprising alumina and forming a transparent conductive bulk layer on the transparent conductive seed layer. Embodiments of the invention also include photovoltaic devices having a substrate, a layer comprising alumina adjacent to the substrate, a zinc oxide-containing transparent conductive seed layer adjacent to the layer comprising alumina, and a zinc oxide-containing transparent conductive bulk layer adjacent the zinc oxide-containing transparent conductive seed layer. | 06-06-2013 |
20130196507 | Method Of Depositing Metals Using High Frequency Plasma - Methods for depositing metal layers, and more specifically TaN layers, using CVD and ALD techniques are provided. In one or more embodiments, the method includes sequentially exposing a substrate to a metal precursor, or more specifically a tantalum precursor, followed by a high frequency plasma. | 08-01-2013 |
20130270107 | OFF-ANGLED HEATING OF THE UNDERSIDE OF A SUBSTRATE USING A LAMP ASSEMBLY - Disclosed are method and apparatus for treating a substrate. The apparatus is a dual-function process chamber that may perform both a material process and a thermal process on a substrate. The chamber has an annular radiant source disposed between a processing location and a transportation location of the chamber. Lift pins have length sufficient to maintain the substrate at the processing location while the substrate support is lowered below the radiant source plane to afford radiant heating of the substrate. A method of processing a substrate having apertures formed in a first surface thereof includes depositing material on the first surface in the apertures and reflowing the material by heating a second surface of the substrate opposite the first surface. A second material can then be deposited, filling the apertures partly or completely. Alternately, a cyclical deposition/reflow process may be performed. | 10-17-2013 |
20140190822 | WAFER PROCESSING DEPOSITION SHIELDING COMPONENTS - Embodiments described herein generally relate to components for a semiconductor processing chamber, a process kit for a semiconductor processing chamber, and a semiconductor processing chamber having a process kit. In one embodiment a lower shield for encircling a sputtering target and a substrate support is provided. The lower shield comprises a cylindrical outer band having a first diameter dimensioned to encircle the sputtering surface of the sputtering target and the substrate support, the cylindrical band comprising a top wall that surrounds a sputtering surface of a sputtering target and a bottom wall that surrounds the substrate support, a support ledge comprising a resting surface and extending radially outward from the cylindrical outer band, a base plate extending radially inward from the bottom wall of the cylindrical band, and a cylindrical inner band coupled with the base plate and partially surrounding a peripheral edge of the substrate support. | 07-10-2014 |
20140262767 | SPUTTER SOURCE FOR SEMICONDUCTOR PROCESS CHAMBERS - Embodiments of a sputter source for semiconductor process chambers are provided herein. In some embodiments, a sputter source for a semiconductor process chamber may include: a target comprising a magnetic material to be deposited on a substrate, the magnetic material including a front surface where material is to be sputtered and an opposing back surface; and an outer magnet disposed proximate a back surface of the target and arranged symmetrically with respect to a central axis of the target, wherein the target has an annular groove formed in the back surface of the target disposed proximate the outer magnet to reduce a magnetic permeability of a region of the target proximate the outer magnet, wherein the groove is an unfilled v-shaped groove having an inner angle greater than 90 degrees. | 09-18-2014 |
20140269826 | IN-SITU TEMPERATURE MEASUREMENT IN A NOISY ENVIRONMENT - Disclosed are method and apparatus for treating a substrate. The apparatus is a dual-function process chamber that may perform both a material process and a thermal process on a substrate. The chamber has an annular radiant source disposed between a processing location and a transportation location of the chamber. Lift pins have length sufficient to maintain the substrate at the processing location while the substrate support is lowered below the radiant source plane to afford radiant heating of the substrate. One or more lift pins has a light pipe disposed therein to collect radiation emitted or transmitted by the substrate when the lift pin contacts the substrate surface. | 09-18-2014 |