Patent application number | Description | Published |
20110297842 | ION BEAM IRRADIATION SYSTEM AND ION BEAM IRRADIATION METHOD - An ion beam irradiation method comprises calculating a scan voltage correction function with the maximum beam scan width depending on the measurement result of a beam current measurement device, calculating each of more than one scan voltage correction functions corresponding to each of scheduled beam scan widths depending on the calculated scan voltage correction functions while satisfying dose uniformity in the horizontal direction, measuring a mechanical Y-scan position during the ion implantation, changing the scan voltage correction function as a function of the measured mechanical Y-scan position so that the beam scan area becomes a D-shaped multistage beam scan area corresponding to an outer periphery of a half of the wafer to thereby reduce the beam scan width, and changing a mechanical Y-scan speed depending on the change of the measurement result of a side cup current measurement device to thereby keep the dose uniformity in the vertical direction. | 12-08-2011 |
20120244691 | ION IMPLANTATION METHOD AND ION IMPLANTATION APPARATUS - An ion implantation method includes reciprocally scanning an ion beam, mechanically scanning a wafer in a direction perpendicular to the ion beam scanning direction, implanting ions into the wafer, and generating an ion implantation amount distribution in a wafer surface of an isotropic concentric circle shape for correcting non-uniformity in the wafer surface in other semiconductor manufacturing processes, by controlling a beam scanning speed in the ion beam scanning direction and a wafer scanning speed in the mechanical scanning direction at the same time and independently using the respective control functions defining speed correction amounts. | 09-27-2012 |
20120252194 | ION IMPLANTATION METHOD AND ION IMPLANTATION APPARATUS - An ion implantation method includes reciprocally scanning an ion beam, mechanically scanning a wafer in a direction perpendicular to a beam scanning direction, and implanting ions into the wafer. The wafer is divided into a plurality of implantation regions, a beam scanning speed in the beam scanning direction is set to be varied for each of the implantation regions, an ion implantation amount distribution for each of the implantation regions is controlled by changing and controlling the beam scanning speed, and the ion implantation amount for each of the implantation regions is controlled and a beam scanning frequency and a beam scanning amplitude in the control of the beam scanning speed for each of the implantation regions is made to be constant by setting a wafer mechanical scanning speed and controlling the wafer mechanical scanning speed for each of the implantation regions. | 10-04-2012 |
20120322248 | ION IMPLANTATION APPARATUS AND ION IMPLANTATION METHOD - An ion implantation method in which an ion beam is scanned in a beam scanning direction and a wafer is mechanically scanned in a direction perpendicular to the beam scanning direction, includes setting a wafer rotation angle with respect to the ion beam so as to be varied, wherein a set angle of the wafer rotation angle is changed in a stepwise manner so as to implant ions into the wafer at each set angle, and wherein a wafer scanning region length is set to be varied, and, at the same time, a beam scanning speed of the ion beam is changed, in ion implantation at each set angle in a plurality of ion implantation operations during one rotation of the wafer, such that the ions are implanted into the wafer and dose amount non-uniformity in a wafer surface in other semiconductor manufacturing processes is corrected. | 12-20-2012 |
20130157390 | ION IMPLANTATION METHOD AND ION IMPLANTATION APPARATUS - An ion implantation method includes transporting ions to a wafer as an ion beam, causing the wafer to undergo wafer mechanical slow scanning and also causing the ion beam to undergo beam fast scanning or causing the wafer to undergo wafer mechanical fast scanning in a direction perpendicular to a wafer slow scanning direction, irradiating the wafer with the ion beam by using the wafer slow scanning in the wafer slow scanning direction and the beam fast scanning of the ion beam or the wafer fast scanning of the wafer in the direction perpendicular to the wafer slow scanning direction, measuring a two-dimensional beam shape of the ion beam before ion implantation into the wafer, and defining an implantation and irradiation region of the ion beam by using the measured two-dimensional beam shape to thereby regulate the implantation and irradiation region. | 06-20-2013 |
20130196492 | ION IMPLANTATION METHOD AND ION IMPLANTATION APPARATUS - On a plane of a semiconductor wafer, two types of in-plane regions comprising full-width non-ion-implantation regions and partial ion implantation regions, which are alternately arranged one or more times in a direction orthogonal to a scanning direction of an ion beam are created. During the creation of the partial ion implantation regions, reciprocating scanning using the ion beam can be repeated until the target dose can be satisfied while performing or stopping ion beam radiation onto the semiconductor wafer in a state in which the semiconductor wafer can be fixed. During the creation of the full-width non-ion-implantation regions, the semiconductor wafer can be moved without performing the ion beam radiation onto the semiconductor wafer. Then, by repeating fixing and movement of the semiconductor wafer plural times, ion implantation regions and non-ion-implantation regions are created in desired regions of the semiconductor wafer. | 08-01-2013 |
20140235042 | ION IMPLANTATION METHOD AND ION IMPLANTATION APPARATUS - An ion implantation method includes reciprocally scanning an ion beam, mechanically scanning a wafer in a direction perpendicular to the ion beam scanning direction, implanting ions into the wafer, and generating an ion implantation amount distribution in a wafer surface of an isotropic concentric circle shape for correcting non-uniformity in the wafer surface in other semiconductor manufacturing processes, by controlling a beam scanning speed in the ion beam scanning direction and a wafer scanning speed in the mechanical scanning direction at the same time and independently using the respective control functions defining speed correction amounts. | 08-21-2014 |