Patent application number | Description | Published |
20100155600 | METHOD AND APPARATUS FOR PLASMA DOSE MEASUREMENT - An non-Faraday ion dose measurement device is positioned within a plasma process chamber and includes a sensor located above a workpiece within the chamber. The sensor is configured to detect the number of secondary electrons emitted from a surface of the workpiece exposed to a plasma implantation process. The sensor outputs a current signal proportional to the detected secondary electrons. A current circuit subtracts the detected secondary current generated from the sensor and subtracts it from a bias current supplied to the workpiece within the chamber. The difference between the currents provides a measurement of the ion dose current calculated in situ and during the implantation process. | 06-24-2010 |
20120000421 | CONTROL APPARATUS FOR PLASMA IMMERSION ION IMPLANTATION OF A DIELECTRIC SUBSTRATE - A control apparatus for plasma immersion ion implantation of a dielectric substrate which includes an electrode disposed above a generated plasma in a plasma chamber. The electrode is biased with negative voltage pulses at a potential that is higher than a potential of a substrate or cathode configured to receive ion implantation. The electrode is more negative to give the electrons generated as secondary electrons from the electrode sufficient energy to overcome the negative voltage of the high voltage sheath around the substrate thereby reaching the substrate. These electrons are accelerated toward the substrate to neutralize charge build-up on the substrate. | 01-05-2012 |
20120175518 | TECHNIQUE AND APPARATUS FOR MONITORING ION MASS, ENERGY, AND ANGLE IN PROCESSING SYSTEMS - A time-of-flight (TOF) ion sensor system for monitoring an angular distribution of ion species having an ion energy and incident on a substrate includes a drift tube wherein the ion sensor system is configured to vary an angle of the drift tube with respect to a plane of the substrate. The drift tube may have a first end configured to receive a pulse of ions from the ion species wherein heavier ions and lighter ions of the pulse of ions arrive in packets at a second end of the drift tube. An ion detector may be disposed at the second end of the ion sensor, wherein the ion detector is configured to detect the packets of ions derived from the pulse of ions and corresponding to respective different ion masses. | 07-12-2012 |
20120228515 | APPARATUS AND METHOD FOR MASKLESS PATTERNED IMPLANTION - A method of implanting a workpiece in an ion implantation system. The method may include providing an extraction plate adjacent to a plasma chamber containing a plasma, such that the extraction plate extracts ions from the plasma through at least one aperture that provides an ion beam having ions distributed over a range of an angles of incidence on the workpiece. The method may include scanning the workpiece with respect to the extraction plate and varying a power level of the plasma during the scanning from a first power level to a second power level, wherein at a surface of the workpiece, a first beam width at a first power level is greater than a second beam width at a second power level. | 09-13-2012 |
20120280140 | METHOD AND SYSTEM FOR CONTROLLING CRITICAL DIMENSION AND ROUGHNESS IN RESIST FEATURES - A method of treating a photoresist relief feature having an initial line roughness and an initial critical dimension. The method may include directing ions toward the photoresist in a first exposure at a first angular range and first dose rate and a that is configured to reduce the initial line roughness to a second line roughness. The method may also include directing ions toward the photoresist relief feature in a second exposure at a second ion dose rate greater than the first dose rate, wherein the second ion dose rate is configured to swell the photoresist relief feature. | 11-08-2012 |
20130135598 | METHOD AND SYSTEM FOR CONTROLLING CRITICAL DIMENSION AND ROUGHNESS IN RESIST FEATURES - A computer readable storage medium containing program instructions for treating a photoresist relief feature on a substrate having an initial line roughness and an initial critical dimension, that, when executed cause a system to: direct ions toward the photoresist relief feature in a first exposure at a first angular range and at a first ion dose rate configured to reduce the initial line roughness to a second line roughness; and direct ions toward the photoresist relief feature in a second exposure at a second ion dose rate greater than the first ion dose rate, the second ion dose rate being configured to swell the photoresist relief feature. | 05-30-2013 |
20130146790 | APPARATUS AND METHOD FOR CHARGE NEUTRALIZATION DURING PROCESSING OF A WORKPIECE - A processing system may include a plasma source for providing a plasma and a workpiece holder arranged to receive ions from the plasma. The processing system may further include a pulsed bias circuit electrically coupled to the plasma source and operable to switch a bias voltage supplied to the plasma source between a high voltage state in which the plasma source is biased positively with respect to ground and a low voltage state in which the plasma source is biased negatively with respect to the ground. | 06-13-2013 |
20150024580 | Method For Implant Productivity Enhancement - A method of processing a workpiece is disclosed, where the ion chamber is first coated with the desired dopant species and another species. Following this conditioning process, a feedgas, which comprises fluorine and the desired dopant, is introduced to the chamber and ionized. Ions are then extracted from the chamber and accelerated toward the workpiece, where they are implanted without being first mass analyzed. The other species used during the conditioning process may be a Group 3, 4 or 5 element. The desired dopant species may be boron. | 01-22-2015 |