Patent application number | Description | Published |
20090001290 | Ion Source and Method For Operating Same - An ion source is provided that can generate an ion beam in which the width is wide, the beam current is large, and the uniformity of the beam current distribution in the width direction is high, and that can prolong the lifetime of a cathode. | 01-01-2009 |
20090078890 | ION SOURCE, ION IMPLANTATION APPARATUS, AND ION IMPLANTATION METHOD - This ion source generates a ribbon-like ion beam whose dimension in the Y direction is larger than the dimension in the X direction. This ion source includes a plasma generating vessel having an ion extraction port extending in the Y direction, a plurality of cathodes arranged in a plurality of stages along the Y direction on one side in the X direction in the plasma generating vessel, a reflecting electrode arranged on the other side in the X direction in the plasma generating vessel opposite to the cathodes, and electromagnets for generating magnetic fields along the X direction in regions including the plurality of cathodes in the plasma generating vessel. | 03-26-2009 |
20090212232 | ION SOURCE AND ION IMPLANTATION APPARATUS - An ion source is to extract a ribbon-shaped ion beam longer in the Y direction in the Z direction and provided with a plasma generating chamber, a plasma electrode which is disposed near the end of the plasma generating chamber in the Z direction and has an ion extracting port extending in the Y direction, a plurality of cathodes for emitting electrons into the plasma generating chamber to generate a plasma and arranged in a plurality of stages along the Y direction, and a magnetic coil which generates magnetic fields along the Z direction in a domain containing the plurality of cathodes inside the plasma generating chamber. | 08-27-2009 |
20090289193 | ION IMPLANTING APPARATUS AND ION BEAM DEFLECTION ANGLE CORRECTING METHOD - To increase a transport efficiency of an ion beam by correcting Y-direction diffusion caused by the space charge effect of the ion beam between an ion beam deflector, which separates the ion beam and neutrons from each other, and a target. An ion implantation apparatus has a beam paralleling device that bends an ion beam scanned in an X direction by magnetic field to be parallel and draws a ribbon-shaped ion beam. The beam paralleling device serves also as an ion beam deflector that deflects the ion beam by magnetic field to separates neutrons from the ion beam. In the vicinity of an outlet of the beam paralleling device, there is provided an electric field lens having a plurality of electrodes opposed to each other in a Y direction with a space for passing the ion beam and narrowing the ion beam in the Y direction. | 11-26-2009 |
20090302214 | ION IMPLANTING APPARATUS AND METHOD OF CORRECTING BEAM ORBIT - An extraction electrode of an ion source is dividedly configured by a first extraction electrode and a second extraction electrode. DC power supplies which form a potential difference between the electrodes, a camera which takes an image of the ion beam to output image data of the ion beam, and a rear-stage beam instrument which measures the beam current of the ion beam that has passed through the analysis slit are disposed. A step of adjusting an analysis electromagnet current so that the beam current measured by the rear-stage beam instrument is maximum, that of processing the image data from the camera to obtain the deviation angle of the ion beam entering the analysis slit from the design beam orbit, and that of, if the deviation angle is not within an allowable range, adjusting the potential difference between the electrodes so that the ion beam is bent to a direction where the deviation angle becomes small, by the potential difference are performed one or more times until the deviation angle is within the allowable range. | 12-10-2009 |
20100051825 | ION SOURCE - An ion source includes a plasma generating chamber into which an ionization gas containing fluorine is introduced, a hot cathode provided on one side in the plasma generating chamber, an opposing reflecting electrode which is provided on other side in the plasma generating chamber and reflects electrons when a negative voltage is applied from a bias power supply to the opposing reflecting electrode, and a magnet for generating a magnetic field along a line, which connects the hot cathode and the opposing reflecting electrode, in the plasma generating chamber. The opposing reflecting electrode is formed of an aluminum containing material. | 03-04-2010 |
20110139613 | REPELLER STRUCTURE AND ION SOURCE - A repeller structure is provided in a plasma generating chamber of an ion source facing a cathode that emits electrons for ionizing a source gas in the plasma generating chamber to generate a plasma. The repeller structure reflects the ions toward the cathode. The repeller structure includes a sputtering target that is sputtered by the plasma to emit predetermined ions, the sputtering target including a through hole that connects a sputtering surface and a back surface of the sputtering target; and an electrode body that is inserted in the through hole, the electrode body including a repeller surface that is exposed to the sputtering surface side through the through hole. | 06-16-2011 |
20110297843 | ION IMPLANTING APPARATUS AND DEFLECTING ELECTRODE - An ion implanting apparatus includes: an electrostatic accelerating tube for causing an ion beam extracted from an ion source to have a desirable energy, and deflecting the ion beam to be incident on a target, the electrostatic accelerating tube including deflecting electrodes provided to interpose the ion beam therebetween. The deflecting electrodes include a first deflecting electrode and a second deflecting electrode to which different electric potentials from each other are set. The second deflecting electrode is provided on a side where the ion beam is to be deflected and includes an upstream electrode provided on an upstream side of the ion beam and a downstream electrode provided apart from the upstream electrode toward a downstream side. An electric potential of the upstream electrode and an electric potential of the downstream electrode are independently set from each other. | 12-08-2011 |