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Method of determining dose uniformity of a scanning ion implanter

A technology of ion implantation and uniformity, which is applied in the direction of discharge tubes, semiconductor devices, electrical components, etc., and can solve rough and other problems

Inactive Publication Date: 2010-01-27
APPLIED MATERIALS INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, the method disclosed in this patent only provides an indication of the number of defective fast scans of the beam across each substrate, thus providing only a rough and rapid indication of the likelihood of a defective or incompletely implanted substrate

Method used

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  • Method of determining dose uniformity of a scanning ion implanter
  • Method of determining dose uniformity of a scanning ion implanter
  • Method of determining dose uniformity of a scanning ion implanter

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Embodiment Construction

[0038] [0038] Reference figure 1 , the present invention may be embodied as a batch ion implanter 10 in which a plurality of substrate wafers 11 are implanted in a vacuum chamber (generally designated 12) Mounted around the spoked scan wheel 14 ( figure 1 shown only schematically in FIG. 2 , and will be shown in more detail in FIG. 2 ). As shown in Figure 2, the scan wheel 14 includes a hub 16 having radially extending spokes 18 that support substrate holders 19 with the substrate holders equally spaced on the periphery of the wheel. In operation, wheel 14 rotates about axis A, while axis A reciprocates in the direction indicated by arrow B.

[0039] [0039] The ion implanter 10 further includes, within the vacuum chamber 12, an ion source 20 that generates a beam of ions directed toward a magnetic analyzer 24. The analyzer 24 generally includes a magnetic sector that causes the ions to follow a path through the magnetic field with a curvature that depends on the mass / charge...

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Abstract

Dose uniformity of a scanning ion implanter is determined. A base beam current is measured at the beginning and / or the end of a complete scan over the whole substrate area. This base beam current is measured at a time when the measurement should be unaffected by outgassing from a substrate being implanted and a base dose distribution map is then calculated for the scan in question. During the scan itself beam instability events are detected and the magnitude and position in the scan of the detected instability events is measured. Corresponding deviations in the calculated base dose map are determined and subtracted from the previously calculated base dose distribution map to provide a corrected distribution map. By determining overall dose uniformity substractively in this way, good overall accuracy can be obtained with lesser accuracy in the measurement of the beam instability events.

Description

technical field [0001] [0001] The present invention relates to ion implanters, and in particular, to a method of determining the uniformity of dose of ions implanted onto a substrate by such implanters. Background technique [0002] [0002] Ion implantation functions can be used to alter semiconductor substrate materials by implanting ions of a desired species into the substrate, thereby altering the properties of the substrate. [0003] [0003] Ion implantation takes place in a vacuum chamber in which the substrate or wafer to be implanted with ions is mounted on a holder. The ions are typically directed to the substrate in a beam from the ion source, and the beam cross-sectional area is typically smaller than the cross-sectional area of ​​the wafer to be implanted. For uniform implantation over the entire surface of the substrate wafer, relative scanning is provided between the substrate and the beam. [0004] [0004] Various scanning layouts have been proposed and used in ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01J37/317H01J37/256
CPCH01J2237/31703Y10S438/961H01J37/3171H01J37/244H01J37/304H01J37/317H01J37/30H01J37/252
Inventor D·W·瓦格纳B·加洛P·T·金德斯利D·E·阿贝勒J·Y·西蒙斯
Owner APPLIED MATERIALS INC
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