Patent application number | Description | Published |
20090078883 | TECHNIQUES FOR OPTICAL ION BEAM METROLOGY - Techniques for providing optical ion beam metrology are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus for controlling beam density profile, the apparatus may include one or more camera systems to capture at least one image of an ion beam and a control system coupled to the one or more camera systems to control a beam density profile of the ion beam. The control system may further include a dose profiler to provide information to one or more ion implantation components in at least one of a feedback loop and a feedforward loop to improve dose and angle uniformity. | 03-26-2009 |
20090085504 | TECHNIQUES FOR CONTROLLING A CHARGED PARTICLE BEAM - Techniques for controlling a charged particle beam are disclosed. In one particular exemplary embodiment, the techniques may be realized as a charged particle acceleration/deceleration system. The charged particle acceleration/deceleration system may comprise an accelerator column, which may comprise a plurality of electrodes. The plurality of electrodes may have apertures through which a charged particle beam may pass. The charged particle acceleration/deceleration system may also comprise a voltage grading system. The voltage grading system may comprise a first fluid reservoir and a first fluid circuit. The first fluid circuit may have conductive connectors connecting to at least one of the plurality of electrodes. The voltage grading system may further comprise fluid in the first fluid circuit. The fluid may have an electrical resistance. | 04-02-2009 |
20090095894 | TECHNIQUES FOR COMMENSURATE CUSP-FIELD FOR EFFECTIVE ION BEAM NEUTRALIZATION - Techniques for commensurate cusp-field for effective ion beam neutralization are disclosed. In one particular exemplary embodiment, the techniques may be realized as a charged particle injection system comprising a beamguide configured to transport an ion beam through a dipole field. The charged particle injection system may also comprise a first array of magnets and a second array of magnets configured to generate a multi-cusp magnetic field, positioned along at least a portion of an ion beam path, the first array of magnets being on a first side of the ion beam path and the second array of magnets being on a second side of the ion beam path. The charged particle injection system may further comprise a charged particle source having one or more apertures configured to inject charged particles into the ion beam path. The charged particle injection system may furthermore align the one or more apertures with at least one of the first array of magnets and the second array of magnets to align the injected charged particles from the charged particle source with one or more magnetic regions for an effective charged particle diffusion into the ion beam path. | 04-16-2009 |
20090121122 | TECHNIQUES FOR MEASURING AND CONTROLLING ION BEAM ANGLE AND DENSITY UNIFORMITY - Techniques for measuring and controlling ion beam angle and density uniformity are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus for measuring and controlling ion beam angle and density uniformity. The apparatus may include a measuring assembly having an opening, a cup, and at least one collector at the rear of the cup. The apparatus may further include an actuator to move the measuring assembly along an actuation path to scan an ion beam to measure and control ion beam uniformity. | 05-14-2009 |
20090121149 | TECHNIQUES FOR SHAPING AN ION BEAM - Techniques for shaping an ion beam are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus for shaping an ion beam. The apparatus may comprise an entrance electrode biased at a first voltage potential, wherein an ion beam enters the entrance electrode, an exit electrode biased at a second voltage potential, wherein the ion beam exits the exit electrode, and a first suppression electrode and a second suppression electrode positioned between the entrance electrode and the exit electrode, wherein the first suppression electrode and the second suppression electrode are independently biased to variably focus the ion beam. | 05-14-2009 |
20090124065 | PARTICLE BEAM ASSISTED MODIFICATION OF THIN FILM MATERIALS - Several examples of a method for processing a substrate are disclosed. In a particular embodiment, the method may include: disposing a substrate having an upper surface and a lower surface on a platen contained in a chamber; generating a plasma containing a plurality of charged particles above the upper surface of the substrate, the plasma having a cross sectional area equal to or greater than a surface area of the upper surface of the substrate; applying a first bias voltage to the substrate to attract the charged particles toward the upper surface of the substrate; introducing the charged particles to a region extending under entire upper surface of the substrate; and initiating, concurrently, a first phase transformation in the region from the amorphous phase to a crystalline phase. | 05-14-2009 |
20090124066 | PARTICLE BEAM ASSISTED MODIFICATION OF THIN FILM MATERIALS - Several examples of a method for processing a substrate are disclosed. In a particular embodiment, the method may include: disposing a substrate having an upper surface and a lower surface on a platen contained in a chamber; generating a plasma containing a plurality of charged particles above the upper surface of the substrate, the plasma having a cross sectional area equal to or greater than a surface area of the upper surface of the substrate; applying a first bias voltage to the substrate to attract the charged particles toward the upper surface of the substrate; introducing the charged particles to a region extending under entire upper surface of the substrate; and initiating, concurrently, a first phase transformation in the region from the amorphous phase to a crystalline phase. | 05-14-2009 |
20090166554 | 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, the apparatus including an ion source having a hot cathode and a high frequency plasma generator, wherein the ion source has multiple modes of operation. | 07-02-2009 |
20090231597 | FLOATING SHEET MEASUREMENT APPARATUS AND METHOD - A sheet measurement apparatus has a sheet disposed in a melt. The measurement system uses a beam to determine a dimension of the sheet. This dimension may be, for example, height or width. The beam may be, for example, collimated light, a laser, x-rays, or gamma rays. The production of the sheet may be altered based on the measurements. | 09-17-2009 |
20090233396 | FLOATING SHEET PRODUCTION APPARATUS AND METHOD - This sheet production apparatus comprises a vessel defining a channel configured to hold a melt. The melt is configured to flow from a first point to a second point of the channel. A cooling plate is disposed proximate the melt and is configured to form a sheet on the melt. A spillway is disposed at the second point of the channel. This spillway is configured to separate the sheet from the melt. | 09-17-2009 |
20090302281 | METHOD AND APPARATUS FOR PRODUCING A DISLOCATION-FREE CRYSTALLINE SHEET - A dislocation-free sheet may be formed from a melt. A sheet of material with a first width is formed on a melt of the material using a cooling plate. This sheet has dislocations. The sheet is transported with respect to the cooling plate and the dislocations migrate to an edge of the sheet. The first width of the sheet is increased to a second width by the cooling plate. The sheet does not have dislocations at the second width. The cooling plate may have a shape with two different widths in one instance. The cooling plate may have segments that operate at different temperatures to increase the width of the sheet in another instance. The sheet may be pulled or flowed with respect to the cooling plate. | 12-10-2009 |
20090315220 | MELT PURIFICATION AND DELIVERY SYSTEM - An apparatus to pump a melt is disclosed. The pump has a chamber that defines a cavity configured to hold the melt. A gas source is in fluid communication with the chamber. A first valve is between the chamber and a first pipe and a second valve is between the chamber and a second pipe. The valves may be check valves in one embodiment. | 12-24-2009 |
20100038826 | SHEET THICKNESS CONTROL - A method and apparatus for forming a sheet are disclosed. A melt is cooled and a sheet is formed on the melt. This sheet has a first thickness. The sheet is then thinned from the first thickness to a second thickness using, for example, a heater or the melt. The cooling may be configured to allow solutes to be trapped in a region of the sheet and this particular sheet may be thinned and the solutes removed. The melt may be, for example, silicon, silicon and germanium, gallium, or gallium nitride. | 02-18-2010 |
20100050686 | MELT PURIFICATION AND DELIVERY SYSTEM - An apparatus to purify a melt is disclosed. A first portion of a melt in a chamber is frozen in a first direction. A fraction of the first portion is melted in the first direction. A second portion of the melt remains frozen. The melt flows from the chamber and the second portion is removed from the chamber. The freezing concentrates solutes in the melt and second portion. The second portion may be a slug with a high solute concentration. This system may be incorporated into a sheet forming apparatus with other components such as, for example, pumps, filters, or particle traps. | 03-04-2010 |
20100080905 | SOLUTE STABILIZATION OF SHEETS FORMED FROM A MELT - Embodiments of this apparatus and method introduce solutes into a sheet formed from a melt. A melt of a material is cooled and a sheet of the material is formed in the melt. A first fluid is introduced around the sheet at least partially while the sheet is formed. A second fluid also may be introduced. In one instance, use of the first fluid and second fluid may form a sheet that has two different solute concentrations. | 04-01-2010 |
20100116983 | MASS ANALYSIS MAGNET FOR A RIBBON BEAM - A ribbon beam mass analyzer having a first and second solenoid coils and steel yoke arrangement. Each of the solenoid coils have a substantially “racetrack” configuration defining a space through which an ion ribbon beam travels. The solenoid coils are spaced apart along the direction of travel of the ribbon beam. Each of the solenoid coils generates a uniform magnetic field to accommodate mass resolution of wide ribbon beams to produce a desired image of ions generated from an ion source. | 05-13-2010 |
20100140077 | EXCITED GAS INJECTION FOR ION IMPLANT CONTROL - An ion source that utilizes exited and/or atomic gas injection is disclosed. In an ion beam application, the source gas can be used directly, as it is traditionally supplied. Alternatively or additionally, the source gas can be altered by passing it through a remote plasma source prior to being introduced to the ion source chamber. This can be used to create excited neutrals, heavy ions, metastable molecules or multiply charged ions. In another embodiment, multiple gasses are used, where one or more of the gasses are passed through a remote plasma generator. In certain embodiments, the gasses are combined in a single plasma generator before being supplied to the ion source chamber. In plasma immersion applications, plasma is injected into the process chamber through one or more additional gas injection locations. These injection locations allow the influx of additional plasma, produced by remote plasma sources external to the process chamber. | 06-10-2010 |
20100148088 | 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, the apparatus including an ion source having a hot cathode and a high frequency plasma generator, wherein the ion source has multiple modes of operation. | 06-17-2010 |
20100155593 | TIME-OF-FLIGHT SEGMENTED FARADAY - This measurement device is used to determine energy for charged particles. The measurement device includes two segments and a plate that define two thresholds or gaps. The current as a charged particle passes through these thresholds or gaps is measured. The measurement device then calculates the energy of the charged particles. Energy contamination also may be determined. | 06-24-2010 |
20100155619 | DIRECTIONAL GAS INJECTION FOR AN ION SOURCE CATHODE ASSEMBLY - In an ion implanter, an inert gas is directed at a cathode assembly near an ion source chamber via a supply tube. The inert gas is provided with a localized directional flow toward the cathode assembly to reduce unwanted concentrations of cleaning or dopant gases introduced into the ion source chamber, thereby reducing the effects of unwanted filament growth in the cathode assembly and extending the manufacturing life of the ion source. | 06-24-2010 |
20100171042 | TECHNIQUES FOR INDEPENDENTLY CONTROLLING DEFLECTION, DECELERATION AND FOCUS OF AN ION BEAM - Techniques for independently controlling deflection, deceleration, and focus of an ion beam are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus for independently controlling deflection, deceleration, and focus of an ion beam. The apparatus may comprise an electrode configuration comprising a set of upper electrodes disposed above an ion beam and a set of lower electrodes disposed below the ion beam. The set of upper electrodes and the set of lower electrodes may be positioned symmetrically about a central ray trajectory of the ion beam. A difference in potentials between the set of upper electrodes and the set of lower electrodes may also be varied along the central ray trajectory to reflect an energy of the ion beam at each point along the central ray trajectory for independently controlling deflection, deceleration, and focus of an ion beam. | 07-08-2010 |
20100184243 | MASK APPLIED TO A WORKPIECE - A method of fabricating a workpiece is disclosed. A material defining apertures is applied to a workpiece. A species is introduced to the workpiece through the apertures and the material is removed. For example, the material may be evaporated, may form a volatile product with a gas, or may dissolve when exposed to a solvent. The species may be introduced using, for example, ion implantation or gaseous diffusion. | 07-22-2010 |
20100200768 | TECHNIQUES FOR IMPROVING EXTRACTED ION BEAM QUALITY USING HIGH-TRANSPARENCY ELECTRODES - Techniques for improving extracted ion beam quality using high-transparency electrodes are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus for ion implantation. The apparatus may comprise an ion source for generating an ion beam, wherein the ion source comprises a faceplate with an aperture for the ion beam to travel therethrough. The apparatus may also comprise a set of extraction electrodes comprising at least a suppression electrode and a high-transparency ground electrode, wherein the set of extraction electrodes may extract the ion beam from the ion source via the faceplate, and wherein the high-transparency ground electrode may be configured to optimize gas conductance between the suppression electrode and the high-transparency ground electrode for improved extracted ion beam quality. | 08-12-2010 |
20100221142 | REMOVAL OF A SHEET FROM A PRODUCTION APPARATUS - A melt of a material is cooled and a sheet of the material is formed in the melt. This sheet is transported, cut into at least one segment, and cooled in a cooling chamber. The material may be Si, Si and Ge, Ga, or GaN. The cooling is configured to prevent stress or strain to the segment. In one instance, the cooling chamber has gas cooling. | 09-02-2010 |
20100252746 | END TERMINATIONS FOR ELECTRODES USED IN ION IMPLANTATION SYSTEMS - An ion implantation system includes an electrostatic lens. The electrostatic lens includes a terminal electrode, a ground electrode and a suppression electrode disposed therebetween. An ion beam enters the electrostatic lens through the terminal electrode and exits through the ground electrode. The electrodes have associated electrostatic equipotentials. An end plate is disposed between a top and bottom portion of the suppression electrode and/or the top and bottom portion of the ground electrode. The respective end plate has a shape which corresponds to the electrostatic equipotential associated with the particular electrode in order to maintain uniformity of the beam as it passes through the electrostatic lens. | 10-07-2010 |
20110003024 | METHOD AND APPARATUS FOR PRODUCING A DISLOCATION-FREE CRYSTALLINE SHEET - A dislocation-free sheet may be formed from a melt. A sheet of material with a first width is formed on a melt of the material using a cooling plate. This sheet has dislocations. The sheet is transported with respect to the cooling plate and the dislocations migrate to an edge of the sheet. The first width of the sheet is increased to a second width by the cooling plate. The sheet does not have dislocations at the second width. The cooling plate may have a shape with two different widths in one instance. The cooling plate may have segments that operate at different temperatures to increase the width of the sheet in another instance. The sheet may be pulled or flowed with respect to the cooling plate. | 01-06-2011 |
20110111159 | PATTERNED MAGNETIC BIT DATA STORAGE MEDIA AND A METHOD FOR MANUFACTURING THE SAME - An improved patterned magnetic bit data storage media and a method for manufacturing the same is disclosed. In one particular exemplary embodiment, the improved patterned magnetic bit data storage media may comprise an active region exhibiting substantially ferromagnetism; and an inactive region exhibiting substantially paramagnetism, the inactive region comprising at least two grains and a grain boundary interposed therebetween, wherein each of the at least two grains contain ferromagnetic material, and wherein the at least two grains are antiferromagnetically coupled. | 05-12-2011 |
20110114849 | SYSTEM AND METHOD FOR MANIPULATING AN ION BEAM - A system for manipulating an ion beam having a principal axis includes an upper member having a first and a second coil generally disposed in different regions of the upper member and configured to conduct, independently of each other, a first and a second current, respectively. A lower member includes a third and a fourth coil that are generally disposed opposite to respective first and second coils and are configured to conduct, independently of each other, a third and a fourth current, respectively. A lens gap is defined between the upper and lower members, and configured to transmit the ion beam, wherein the first through fourth currents produce a 45 degree quadrupole field that exerts a rotational force on the ion beam about its principal axis. | 05-19-2011 |
20110117234 | FLOATING SHEET PRODUCTION APPARATUS AND METHOD - This sheet production apparatus comprises a vessel defining a channel configured to hold a melt. The melt is configured to flow from a first point to a second point of the channel. A cooling plate is disposed proximate the melt and is configured to form a sheet on the melt. A spillway is disposed at the second point of the channel. This spillway is configured to separate the sheet from the melt. | 05-19-2011 |
20110124186 | APPARATUS AND METHOD FOR CONTROLLABLY IMPLANTING WORKPIECES - A plasma processing apparatus comprises a plasma source configured to produce a plasma in a plasma chamber, such that the plasma contains ions for implantation into a workpiece. The apparatus also includes a focusing plate arrangement having an aperture arrangement configured to modify a shape of a plasma sheath of the plasma proximate the focusing plate such that ions exiting an aperture of the aperture arrangement define focused ions. The apparatus further includes a processing chamber containing a workpiece spaced from the focusing plate such that a stationary implant region of the focused ions at the workpiece is substantially narrower that the aperture. The apparatus is configured to create a plurality of patterned areas in the workpiece by scanning the workpiece during ion implantation. | 05-26-2011 |
20110155921 | SYSTEM AND METHOD FOR CONTROLLING DEFLECTION OF A CHARGED PARTICLE BEAM WITHIN A GRADED ELECTROSTATIC LENS - A method and apparatus for controlling deflection, deceleration, and focus of an ion beam are disclosed. The apparatus may include a graded deflection/deceleration lens including a plurality of upper and lower electrodes disposed on opposite sides of an ion beam, as well as a control system for adjusting the voltages applied to the electrodes. The difference in potential between pairs of upper and lower electrodes are varied using a set of “virtual knobs” that are operable to independently control deflection and deceleration of the ion beam. The virtual knobs include control of beam focus and residual energy contamination, control of upstream electron suppression, control of beam deflection, and fine tuning of the final deflection angle of the beam while constraining the beam's position at the exit of the lens. In one embodiment, this is done by fine tuning beam deflection while constraining the beam position at the exit of the VEEF. In another embodiment, this is done by fine tuning beam deflection while measuring the beam position and angle at the wafer plane. In a further embodiment, this is done by tuning a deflection factor to achieve a centered beam at the wafer plane. | 06-30-2011 |
20110240847 | TRANSMISSION ENERGY CONTAMINATION DETECTOR - An energy contamination detection apparatus includes a membrane and a charge collection plate disposed at a distance from the membrane. The membrane is configured to receive an ion beam and allow a portion of the ion beam having energy levels above a desired energy level to pass therethrough toward the charge collection plate and absorb or reflect portions of the ion beam having energy levels at or below the desired energy level. A voltage source is electrically coupled to the charge collection plate for providing a bias voltage to the charge collection plate. A detection circuit is coupled to the charge collection plate and is configured to detect energy contamination based on an amount of charge collected on the charge collection plate. | 10-06-2011 |
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 |
20110240877 | TEMPERATURE CONTROLLED ION SOURCE - An ion source is provided that utilizes a cooling plate and a gap interface to control the temperature of an ion source chamber. The gap interface is defined between the cooling plate and a wall of the chamber. A coolant gas is supplied to the interface at a given pressure where the pressure determines thermal conductivity from the cooling plate to the chamber to control the temperature of the interior of the chamber. | 10-06-2011 |
20110240878 | TEMPERATURE CONTROLLED ION SOURCE - An ion source is provided that utilizes the same dopant gas supplied to the chamber to generate the desired process plasma to also provide temperature control of the chamber walls during high throughput operations. The ion source includes a chamber having a wall that defines an interior surface. A liner is disposed within the chamber and has at least one orifice to supply the dopant gas to an inside of the chamber. A gap is defined between at least a portion of the interior surface of the chamber wall and the liner. A first conduit is configured to supply dopant gas to the gap where the dopant gas has a flow rate within the gap. A second conduit is configured to remove the dopant gas from the gap, wherein the flow rate of the dopant gas within the gap acts as a heat transfer media to regulate the temperature of the interior of the chamber. | 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 |
20110271901 | REMOVAL OF A SHEET FROM A PRODUCTION APPARATUS - A melt of a material is cooled and a sheet of the material is formed in the melt. This sheet is transported, cut into at least one segment, and cooled in a cooling chamber. The material may be Si, Si and Ge, Ga, or GaN. The cooling is configured to prevent stress or strain to the segment. In one instance, the cooling chamber has gas cooling. | 11-10-2011 |
20120056107 | UNIFORMITY CONTROL USING ION BEAM BLOCKERS - An ion beam is generated and the energy of this ion beam is changed from a first energy to a second energy through, for example, acceleration or deceleration. A portion of the ion beam is blocked after the energy is changed and the ion beam is implanted into a workpiece. A plurality of blockers may be used to block the beam. Each blocker may be attached to a drive unit configured to translate one of the blockers in a first direction. | 03-08-2012 |
20120064373 | TECHNIQUE FOR MANUFACTURING BIT PATTERNED MEDIA - A technique for manufacturing hit pattern media is disclosed. In one particular exemplary embodiment, the technique may be realized as a method for manufacturing bit pattern media. The method may comprise forming an intermediate layer comprising a modified region and a first region adjacent to one another, where the modified region and the first region may have at least one different property; depositing magnetic species on the first region of the intermediate layer to form an active region; and depositing non-ferromagnetic species on the modified region of the intermediate layer to form a separator. | 03-15-2012 |
20120068081 | ION BEAM TUNING - A beam line ion implanter includes an ion source configured to generate an ion beam, a scanner configured to scan the ion beam to produce a scanned ion beam having trajectories which diverge from a scan origin, and a focusing element having a focusing field positioned upstream of the scanner configured to focus the ion beam to a focal point at the scan origin. A method of ion beam tuning includes generating an ion beam, focusing the ion beam to a focal point positioned at a scan origin, and scanning the ion beam to produce a scanned ion beam having trajectories which diverge from the scan origin. | 03-22-2012 |
20120088035 | PLATEN CONTROL - A system and method for maintain a desired degree of platen flatness is disclosed. A laser system is used to measure the flatness of a platen. The temperature of the platen is then varied to achieve the desired level of flatness. In some embodiments, this laser system is only used during a set up period and the resulting desired temperature is then used during normal operation. In other embodiments, a laser system is used to measure the flatness of the platen, even while the workpiece is being processed. | 04-12-2012 |
20120168622 | SYSTEM AND METHOD FOR PRODUCING A MASS ANALYZED ION BEAM - An implantation system includes an ion extraction plate having a set of apertures configured to extract ions from an ion source to form a plurality of beamlets. A magnetic analyzer is configured to provide a magnetic field to deflect ions in the beamlets in a first direction that is generally perpendicular to a principle axis of the beamlets. A mass analysis plate includes a set of apertures wherein first ion species having a first mass/charge ratio are transmitted through the mass analysis plate and second ion species having a second mass/charge ratio are blocked by the mass analysis plate. A workpiece holder is configured to move with respect to the mass analysis plate in a second direction perpendicular to the first direction, wherein a pattern of ions transmitted through the mass analysis plate forms a continuous ion beam current along the first direction at the substrate. | 07-05-2012 |
20120168637 | METHOD AND APPARATUS FOR CONTROLLING AN ELECTROSTATIC LENS ABOUT A CENTRAL RAY TRAJECTORY OF AN ION BEAM - A method of controlling deflection of a charged particle beam in an electrostatic lens includes establishing a symmetrical electrostatic lens configuration comprising a plurality of electrodes disposed at unadjusted positions that are symmetric with respect to the central ray trajectory with applied unadjusted voltages that create fields symmetric with respect to the central ray trajectory. A symmetric electric field is calculated corresponding to the set of unadjusted voltages. A plurality of lower electrodes is arranged at adjusted positions that are asymmetric with respect to the central ray trajectory. A set of adjusted voltages is obtained for the plurality of lower electrodes, wherein the set of adjusted voltages corresponds to a set of respective potentials of the symmetric electric field at respective adjusted asymmetric positions. The adjusted voltages are applied to the asymmetric lens configuration when the charged particle beam passes therethrough. | 07-05-2012 |
20120175342 | TECHNIQUE FOR MANUFACTURING BIT PATTERNED MEDIA - A novel, technique: for manufacturing bit patterned media is disclosed. In one particular exemplary embodiment, the technique may be realized as a method for manufacturing hit pattern media. The technique, which may be realized as a method comprising: forming a non-catalysis region on a first portion of a catalysis layer; forming a non-magnetic separator on the non-catalysis region; and forming a magnetic active region on it second portion of the catalysis layer adjacent to the first portion of the catalysis layer. | 07-12-2012 |
20120256614 | TECHNIQUE FOR LIMITING FAULT CURRENT TRANSMISSION - A technique for limiting fault current transmission is disclosed. In one particular exemplary embodiment, the technique may be realized with a fault current limiter comprising a core having at least first easy axis and a hard axis; and a first coil wound around the core, the first coil configured to carry current. In some embodiment, the easy axis of the core may be aligned with H fields generated by the current transmitted through the first coil. | 10-11-2012 |
20120280442 | MEDIA CARRIER - A media carrier, adapted to hold a plurality of pieces of magnetic media, is disclosed. This media carrier can be placed on the workpiece support, or platen, allowing the magnetic media to be processed. In some embodiments, the media carrier is designed such that only one side of the magnetic media is exposed, requiring a robot or other equipment to invert each piece of media in the carrier to process the second side. In other embodiments, the media carrier is designed such that both sides of the magnetic media are exposed. In this scenario, the media carrier is inverted on the platen to allow processing of the second side. | 11-08-2012 |
20120292285 | MASK SYSTEM AND METHOD OF PATTERNING MAGNETIC MEDIA - A method of patterning a substrate, comprises patterning a photoresist layer disposed on the substrate using imprint lithography and etching exposed portions of a hard mask layer disposed between the patterned photoresist layer and the substrate. The method may also comprise implanting ions into a magnetic layer in the substrate while the etched hard mask layer is disposed thereon. | 11-22-2012 |
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 |
20130001414 | SYSTEM AND METHOD FOR PRODUCING A MASS ANALYZED ION BEAM FOR HIGH THROUGHPUT OPERATION - A system for producing a mass analyzed ion beam for implanting into a workpiece, includes an extraction plate having a set of apertures having a longitudinal axis of the aperture. The set of apertures are configured to extract ions from an ion source to form a plurality of beamlets. The system also includes an analyzing magnet region configured to provide a magnetic field to deflect ions in the beamlets in a first direction that is generally perpendicular to the longitudinal axis of the apertures. The system further includes a mass analysis plate having a set of apertures configured to transmit first ion species having a first mass/charge ratio and to block second ion species having a second mass/charge ratio and a workpiece holder configured to move with respect to the mass analysis plate along the first direction. | 01-03-2013 |
20130090242 | Techniques for Sub-Cooling in a Superconducting System - Techniques for sub-cooling in a superconducting (SC) system is disclosed. The techniques may be realized as a method and superconducting (SC) system comprising at least one insulated enclosure configured to enclose at least a first fluid or gas and a second fluid or gas, and at least one superconducting circuit within the at least one insulated enclosure. The superconducting (SC) system may be sub-cooled using at least the first fluid or gas. | 04-11-2013 |
20130092413 | Current Lead with a Configuration to Reduce Heat Load Transfer in an Alternating Electrical Current Environment - A current lead with a configuration to reduce heat load transfer in an alternating electrical current (AC) environment is disclosed. The current lead may comprise a conductive material having a configuration for reducing heat load transfer across the current lead when an alternating electrical current (AC) is applied to the current lead. A temperature gradient a may be exhibited along a length of the current lead. | 04-18-2013 |
20130141818 | MAGNETIC STORAGE DEVICE - A write head for a magnetic storage device includes a writing tip comprising a magnetic material, a write pulse generator configured to generate a write pulse signal comprising a varying voltage bias between the magnetic storage device and the writing tip. The write pulse signal comprising one or more write pulses effective to tunnel electrons from the writing tip to the magnetic storage device. The data stream generator configured to provide a data stream signal to the writing tip where the data stream signal is operative to vary spin polarity in the electrons from a first polarity to a second polarity. | 06-06-2013 |
20140096713 | APPARATUS FOR FLOAT GROWN CRYSTALLINE SHEETS - An apparatus for forming a crystalline sheet from a melt may include a crucible to contain the melt. The apparatus may also include a cold block configured to deliver a cold region proximate a surface of the melt, the cold region operative to generate a crystalline front of the crystalline sheet and a crystal puller configured to draw the crystalline sheet in a pull direction along the surface of the melt, wherein a perpendicular to the pull direction forms an angle with respect to the crystalline front of less than ninety degrees and greater than zero degrees. | 04-10-2014 |
20140272180 | Apparatus and Method for Improved Perpendicular Recording Medium Using Ion Implantation in a Magnetic Field - In one embodiment, a system for treating a magnetic layer includes an ion source to generate an ion beam containing ions of a desired species. The system may also include a magnetic alignment apparatus downstream of the ion source and proximate to the substrate, wherein the magnetic alignment apparatus is operable to apply a magnetic field to the magnetic layer in the substrate along a direction out of plane relative to the magnetic layer. | 09-18-2014 |
20140272181 | APPARATUS AND METHOD FOR ION IMPLANTATION IN A MAGNETIC FIELD - In one embodiment, a system for treating a magnetic layer includes an ion generating apparatus for directing an ion beam to the substrate and a magnetic alignment apparatus downstream of the ion generating apparatus and proximate to the substrate and operative to generate a magnetic field that intercepts the substrate in an out of plane orientation with respect to a plane of the substrate. The magnetic alignment apparatus and ion generating apparatus generate a process region in which the ion beam and magnetic field overlap. | 09-18-2014 |
20140272728 | TECHNIQUES FOR PROCESSING PHOTORESIST FEATURES USING IONS - A method of treating a substrate includes directing first ions over a first range of angles to one or more photoresist features disposed on the substrate, the first ions effective to generate an altered layer in the one or more photoresist features, the altered surface layer encapsulating an inner portion of the one or more photoresist features, and directing second ions different from the first ions over a second range of angles to the one or more photoresist features, the second ions effective to generate gaseous species in the inner regions of the one or more photoresist features. | 09-18-2014 |