Patent application number | Description | Published |
20080302955 | TECHNIQUES FOR ION BEAM CURRENT MEASUREMENT USING A SCANNING BEAM CURRENT TRANSFORMER - Techniques for ion beam current measurement using a scanning beam current transformer are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus for ion beam current measurement using a transformer. The apparatus may comprise a measurement device positioned adjacent a wafer and an ion dose control module coupled to the measurement device. The measurement device may comprise a transformer through which an ion beam passes onto the wafer. The ion dose control module may calculate ion beam current passing through the transformer and adjust dose based at least in part upon the calculated ion beam current. | 12-11-2008 |
20090309041 | TECHNIQUES FOR PROVIDING A MULTIMODE ION SOURCE - Techniques for providing a multimode ion source are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus for ion implantation comprising an ion source that operates in multiple modes such that a first mode is an arc-discharge mode and a second mode is an RF mode. | 12-17-2009 |
20090314951 | ION SOURCE CLEANING METHOD AND APPARATUS - In a cleaning process for an ion source chamber, an electrode positioned outside of the ion source chamber includes a suppression plug. When the cleaning gas is introduced into the source chamber, the suppression plug may engage an extraction aperture of the source chamber to adjust the gas pressure within the chamber to enhance chamber cleaning via. plasma-enhanced chemical reaction. The gas conductance between the source chamber aperture and the suppression plug can be adjusted during the cleaning process to provide optimum cleaning conditions and to exhaust unwanted deposits. | 12-24-2009 |
20100055345 | HIGH DENSITY HELICON PLASMA SOURCE FOR WIDE RIBBON ION BEAM GENERATION - An ion source, capable of generating high density wide ribbon ion beam, utilizing one or more helicon plasma sources is disclosed. In addition to the helicon plasma source(s), the ion source also includes a diffusion chamber. The diffusion chamber has an extraction aperture oriented along the same axis as the dielectric cylinder of the helicon plasma source. In one embodiment, dual helicon plasma sources, located on opposing ends of the diffusion chamber are used to create a more uniform extracted ion beam. In a further embodiment, a multicusp magnetic field is used to further improve the uniformity of the extracted ion beam. | 03-04-2010 |
20100264328 | CONJUGATED ICP AND ECR PLASMA SOURCES FOR WIDE RIBBON ION BEAM GENERATION AND CONTROL - An ion source, capable of generating high-density wide ribbon ion beam, utilizing one or more plasma sources is disclosed. In addition to the plasma source(s), the ion source also includes a diffusion chamber. The diffusion chamber has an extraction aperture oriented along the same axis as the dielectric cylinder of the plasma source. In one embodiment, dual plasma sources, located on opposing ends of the diffusion chamber are used to create a more uniform extracted ion beam. In a further embodiment, a multicusp magnetic field is used to further improve the uniformity of the extracted ion beam. | 10-21-2010 |
20110240876 | APPARATUS FOR CONTROLLING THE TEMPERATURE OF AN RF ION SOURCE WINDOW - An RF ion source utilizing a heating/RF-shielding element for controlling the temperature of an RF window and to act as an RF shielding element for the RF ion source. When the heating/RF shielding element is in a heating mode, it suppresses formation of unwanted deposits on the RF window which negatively impacts the transfer of RF energy from an RF antenna to a plasma chamber. When the heating/RF-shielding element is in a shielding mode, it provides an electrostatic shielding for the RF ion source. | 10-06-2011 |
20110259269 | SMALL FORM FACTOR PLASMA SOURCE FOR HIGH DENSITY WIDE RIBBON ION BEAM GENERATION - An ion source, capable of generating high-density wide ribbon ion beam, utilizing inductively coupled plasma production is disclosed. As opposed to conventional ICP sources, the present disclosure describes an ICP source which is not cylindrical. Rather, the source is defined such that its width, which is the dimension along which the beam is extracted, is greater than its height. The depth of the source may be defined to maximize energy transfer from the antenna to the plasma. In a further embodiment, a multicusp magnetic field surrounding the ICP source is used to further increase the current density and improve the uniformity of the extracted ion beam. Ion beam uniformity can also be controlled by means of several independent controls, including gas flow rate, and input RF power. | 10-27-2011 |
20120293070 | PLASMA ATTENUATION FOR UNIFORMITY CONTROL - A plasma processing apparatus and method are disclosed which create a uniform plasma within an enclosure. In one embodiment, a conductive or ferrite material is used to influence a section of the antenna, where a section is made up of portions of multiple coiled segments. In another embodiment, a ferrite material is used to influence a portion of the antenna. In another embodiment, plasma uniformity is improved by modifying the internal shape and volume of the enclosure. | 11-22-2012 |
20130015053 | INDUCTIVELY COUPLED RF PLASMA SOURCE WITH MAGNETIC CONFINEMENT AND FARADAY SHIELDINGAANM Benveniste; Victor M.AACI LyleAAST WAAACO USAAGP Benveniste; Victor M. Lyle WA USAANM Rdovanov; SvetlanaAACI BrooklineAAST MAAACO USAAGP Rdovanov; Svetlana Brookline MA USAANM Biloiu; CostelAACI RockportAAST MAAACO USAAGP Biloiu; Costel Rockport MA US - Disclosed is an inductively coupled RF plasma source that provides both magnetic confinement to reduce plasma losses and Faraday shielding to suppress parasitic capacitive components. The inductively coupled RF plasma system comprises an RF power source, plasma chamber, an array of permanent magnets, and an antenna array. The plasma chamber is comprised of walls and a dielectric window having an inner and outer surface wherein the inner surface forms a wall of the plasma chamber. The array of parallel conductive permanent magnets is electrically interconnected and embedded within the dielectric window walls proximate to the inner surface and coupled to ground on one end. The permanent magnet array elements are alternately magnetized toward and away from plasma in the plasma chamber to form a multi-cusp magnetic field. The antenna array may be comprised of parallel tubes through which an RF current is circulated. The antenna array is oriented perpendicular to the permanent magnet array. | 01-17-2013 |
20130193848 | RIBBON ANTENNA FOR VERSATILE OPERATION AND EFFICIENT RF POWER COUPLING - A plasma processing apparatus and method are disclosed which allows switching between the E and H operation modes and also increase the coupling efficiency of the RF power to the plasma. This apparatus may increase plasma density by a factor of about 1.25-1.65 for a given power output. Simultaneously, due to the high efficiency, the need to cool the antenna may be eliminated. A new antenna geometry which increases the amount of surface area for a given volume is used to take advantage of skin effects associated with RF electric current. In some embodiments, the antenna has a single turn to reduce proximity effects. The antenna may also be embedded in a ferrite material to further optimize its performance. | 08-01-2013 |
20130313971 | Gallium ION Source and Materials Therefore - In one embodiment, a method for generating an ion beam having gallium ions includes providing at least a portion of a gallium compound target in a plasma chamber, the gallium compound target comprising gallium and at least one additional element. The method also includes initiating a plasma in the plasma chamber using at least one gaseous species and providing a source of gaseous etchant species to react with the gallium compound target to form a volatile gallium species. | 11-28-2013 |
20140042337 | INDUCTIVELY COUPLED PLASMA ION SOURCE WITH MULTIPLE ANTENNAS FOR WIDE ION BEAM - A wide ion beam source includes a plurality of RF windows arranged in a predetermined relationship, a single plasma chamber disposed on a first side of the plurality of RF windows, a plurality of RF antennas, each RF antenna of the plurality of RF antennas disposed on a second side of a respective RF window of the plurality of RF windows, the second side being opposite the first side, and a plurality of RF sources, each RF source coupled to a respective RF antenna of the plurality of RF antennas, wherein a difference in frequency of a first RF signal produced by a first RF source coupled to a first RF antenna from that of a second RF signal produced by a second RF source coupled to an RF antenna adjacent to the first RF antenna is greater than 10 kHz. | 02-13-2014 |
20140265849 | HARDWARE PLASMA INTERLOCK SYSTEM - A hardware interlock system for monitoring operation of RF plasma sources. The hardware interlock system includes an RF generator operative to transmit a forward RF power used to generate plasma in a plasma chamber. A derivative based hardware interlock circuit is coupled in series with the RF generator. The derivative based hardware interlock circuit determines a reflected RF power derivative value indicative of the speed of change in reflected RF power values in the RF plasma ion source. An analog/digital (A/D) logic circuit is coupled with the derivative based hardware interlock circuit. The A/D logic circuit can shut down the RF generator output when the reflected RF power derivative value exceeds a threshold. | 09-18-2014 |
20140326594 | EXTENDED LIFETIME ION SOURCE - An ion source includes an ion source chamber, a cathode disposed within the ion source chamber and configured to emit electrons to generate an arc plasma, and a repeller configured to repell electrons back into the arc plasma. The ion source chamber and cathode may comprise a refractory metal. The ion source chamber further includes a gas source configured to provide a halogen species to the ion source chamber. The reactive insert is interoperative with the halogen species to yield a first etch rate of the refractory metal material within the ion source chamber under a first set of operating conditions that is less than a second etch rate of the refractory metal material within the ion source chamber under the first set of operating conditions when the reactive insert is not disposed within the ion source chamber. | 11-06-2014 |