Patent application number | Description | Published |
20080314731 | TECHNIQUES FOR DETECTING WAFER CHARGING IN A PLASMA PROCESSING SYSTEM - Techniques for detecting wafer charging in a plasma processing system are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus for detecting wafer charging in a plasma processing system. The apparatus may comprise a plasma chamber to produce a plasma discharge above a wafer in the plasma chamber. The apparatus may also comprise a biasing circuit to bias the wafer to draw ions from the plasma discharge towards the wafer. The apparatus may further comprise a detection mechanism to detect charge buildup on the wafer by measuring an electric field in one or more designated locations near a top surface of the wafer. | 12-25-2008 |
20090008577 | Conformal Doping Using High Neutral Density Plasma Implant - A plasma doping apparatus includes a plasma source that generates a pulsed plasma. A platen supports a substrate proximate to the plasma source for plasma doping. A structure absorbs a film which provides a plurality of neutrals when desorbed. A bias voltage power supply generates a bias voltage waveform having a negative potential that attracts ions in the plasma to the substrate for plasma doping. A radiation source irradiates the film absorbed on the structure, thereby desorbing the film and generating a plurality of neutrals that scatter ions from the plasma while the ions are being attracted to the substrate, thereby performing conformal plasma doping. | 01-08-2009 |
20090078871 | OUTGASSING RATE DETECTION - A workpiece processing system includes a platen configured to support a workpiece, a source configured to provide an electromagnetic wave proximate a front surface of the workpiece, and a detector. The detector is configured to receive at least a portion of the electromagnetic wave and provide a detection signal representative of an outgassing rate from the workpiece of outgassing byproducts. A method of detecting an outgassing rate is also provided. The method includes providing an electromagnetic wave proximate a front surface of a workpiece, receiving at least a portion of the electromagnetic wave, and providing a detection signal representative of an outgassing rate from the workpiece of outgassing byproducts. | 03-26-2009 |
20090081848 | WAFER BONDING ACTIVATED BY ION IMPLANTATION - A method for wafer bonding two substrates activated by ion implantation is disclosed. An in situ ion bonding chamber allows ion activation and bonding to occur within an existing process tool utilized in a manufacturing process line. Ion activation of at least one of the substrates is performed at low implant energies to ensure that the wafer material below the thin surface layers remains unaffected by the ion activation. | 03-26-2009 |
20090084757 | UNIFORMITY CONTROL FOR ION BEAM ASSISTED ETCHING - An approach for providing uniformity control in an ion beam etch is described. In one embodiment, there is a method for providing uniform etching in an ion beam based etch process. In this embodiment, an ion beam is directed at a surface of a substrate. The surface of the substrate is etched with the ion beam. The etching is controlled to attain uniformity in the etch of the substrate. The control attains uniformity as a function of at least one ion beam based parameter selected from a plurality of ion beam based parameters. | 04-02-2009 |
20090101848 | LOCAL PRESSURE SENSING IN A PLASMA PROCESSING SYSTEM - A plasma processing system includes a process chamber, a source configured to generate a plasma in the process chamber, a platen configured to support a workpiece in the process chamber, and a pressure sensor positioned adjacent to the workpiece. The pressure sensor is configured to monitor a local pressure adjacent to the workpiece. A method includes generating a plasma in a process chamber, supporting a workpiece in the process chamber, and monitoring a local pressure adjacent to the workpiece with a pressure sensor positioned adjacent to the workpiece. | 04-23-2009 |
20090162953 | PREDICTING DOSE REPEATABILITY IN AN ION IMPLANTATION - An approach for predicting dose repeatability in an ion implantation is described. In one embodiment, an ion source is tuned to generate an ion beam with desired beam current. Beam current measurements are obtained from the tuned ion beam. The dose repeatability is predicted for the ion implantation as a function of the beam current measurements. | 06-25-2009 |
20090181492 | NANO-CLEAVE A THIN-FILM OF SILICON FOR SOLAR CELL FABRICATION - An approach for nano-cleaving a thin-film of silicon for solar cell fabrication is described. In one embodiment, there is a method of forming a substrate for use as a solar cell substrate. In this embodiment, a substrate of silicon is provided and implanted with an ion flux. A non-silicon substrate is attached to the thin-film of silicon to form a solar cell substrate. | 07-16-2009 |
20090209084 | CLEAVE INITIATION USING VARYING ION IMPLANT DOSE - An approach for providing a cleave initiation using a varying ion implant dose is described. In one embodiment, there is a method of forming a substrate. In this embodiment, a semiconductor material is provided and implanted with a spatially varying dose of one or more ion species. A handler substrate is attached to the implanted semiconductor material. A cleave of the implanted semiconductor material is initiated from the handler substrate at a preferential location that is a function of a dose gradient that develops from the spatially varying dose of one or more ion species implanted into the semiconductor material | 08-20-2009 |
20100041176 | PATTERNED ASSEMBLY FOR MANUFACTURING A SOLAR CELL AND A METHOD THEREOF - Apparatuses and methods for manufacturing a solar cell are disclosed. In a particular embodiment, the solar cell may be manufactured by disposing a solar cell in a chamber having a particle source; disposing a patterned assembly comprising an aperture and an assembly segment between the particle source and the solar cell; and selectively implanting first type dopants traveling through the aperture into a first region of the solar cell while minimizing introduction of the first type dopants into a region outside of the first region. | 02-18-2010 |
20100155026 | CONDENSIBLE GAS COOLING SYSTEM - A workpiece cooling system and method are disclosed. Transferring heat away from a workpiece, such as a semiconductor wafer during ion implantation, is essential. Typically this heat is transferred to the workpiece support, or platen. In one embodiment, the desired operating temperature is determined. Based on this, a gas having a vapor pressure within a desired range, such as 10-50 torr, is selected. This range is required to be sufficiently low so as to be less than the clamping force. This condensible gas is used to fill the volume between the workpiece and the workpiece support. Heat transfer occurs based on adsorption and desorption, thereby offering improved transfer properties than traditionally employed gases, such as helium, hydrogen, nitrogen, argon and air. | 06-24-2010 |
20110012495 | Emitter Exit Window - An exit window can include an exit window foil, and a support grid contacting and supporting the exit window foil. The support grid can have first and second grids, each having respective first and second grid portions that are positioned in an alignment and thermally isolated from each other. The first and second grid portions can each have a series of apertures that are aligned for allowing the passage of a beam therethrough to reach and pass through the exit window foil. The second grid portion can contact the exit window foil. The first grid portion can mask the second grid portion and the exit window foil from heat caused by the beam striking the first grid portion. | 01-20-2011 |
20110207308 | TECHNIQUE FOR LOW-TEMPERATURE ION IMPLANTATION - A technique for low-temperature ion implantation is disclosed. In one particular exemplary embodiment, the technique may be realized as an apparatus for low-temperature ion implantation. The apparatus may comprise a pre-chill station located in proximity to an end station in an ion implanter; a cooling mechanism within the pre-chill station configured to cool a wafer from ambient temperature to a predetermined range less than ambient temperature; a loading assembly coupled to the pre-chill station and the end station; and a controller in communication with the loading assembly and the cooling mechanism to coordinate loading a wafer into the pre-chill station, cooling the wafer down to the predetermined temperature range before any ion implantation into the wafer, and loading the cooled wafer into the end station where the cooled wafer undergoes an ion implantation process. | 08-25-2011 |
20120276684 | PATTERNED ASSEMBLY FOR MANUFACTURING A SOLAR CELL AND A METHOD THEREOF - Apparatuses and methods for manufacturing a solar cell are disclosed. In a particular embodiment, the solar cell may be manufactured by disposing a solar cell in a chamber having a particle source; disposing a patterned assembly comprising an aperture and an assembly segment between the particle source and the solar cell; and selectively implanting first type dopants traveling through the aperture into a first region of the solar cell while minimizing introduction of the first type dopants into a region outside of the first region. | 11-01-2012 |
20130009077 | EMITTER EXIT WINDOW - An exit window can include an exit window foil, and a support grid contacting and supporting the exit window foil. The support grid can have first and second grids, each having respective first and second grid portions that are positioned in an alignment and thermally isolated from each other. The first and second grid portions can each have a series of apertures that are aligned for allowing the passage of a beam therethrough to reach and pass through the exit window foil. The second grid portion can contact the exit window foil. The first grid portion can mask the second grid portion and the exit window foil from heat caused by the beam striking the first grid portion. | 01-10-2013 |
20140209820 | CONTOURED SUPPORT GRID FOR HERMETICALLY SEALED THIN FILM APPLICATIONS - Systems and methods for manufacturing a vacuum device, such as an electron emitter, that includes a foil exit window palced over and joined to a support grid. In one particular method, the vacuum chamber of an electron emitter has a thin foil forming an exit window at one end. The thin foil may be titanium or any suitable material and the foil will typically enlarge during a bonding process that attaches the foil to the support grid. In one manufacturing process, the support grid is provided with a surface that has contours, typically being smooth recessed surfaces, that the foil once enlarged can lie against as the vacuum pulls the foil against the grid. | 07-31-2014 |