DocumentCode
3115419
Title
Dose control accuracy in pressure compensation
Author
Sano, Makoto ; Kabasawa, Mitsualu ; Tsukihara, Mitsukuni ; Sugitami, M.
Author_Institution
Sumitomo Eaton Nova Corp., Sci. & Technol., Toyo, Japan
fYear
2000
fDate
2000
Firstpage
682
Lastpage
685
Abstract
NV-GSD series ion implanters utilize pressure compensation systems to suppress dose shifts resulting from charge exchange between the ions and residual gas in the beam line such as from plasma shower systems or photoresist outgassing. Here we report on the following improvements in the pressure compensation system, which increase both its accuracy and availability : (i) a consideration of charge exchange in the analyzer magnet region, referred to as the beam line effect (ii) tabulation of pressure compensation factors to aid the automation of the pressure compensation system, and (iii) adoption of a new type of ion gauge which shows less variation between individual units as well as more stable behavior over time. As a result, the deviation in sheet resistance of implanted photoresist-containing wafers from implanted bare wafers is reduced to less than 1% (1σ). The improved pressure compensation system described here is currently available on the NV-GSDIII series high current implanters
Keywords
charge exchange; dosimetry; ion implantation; photoresists; semiconductor doping; surface conductivity; NV-GSDIII series high current implanters; analyzer magnet region; beam line effect; charge exchange; dose control accuracy; dose shift suppression; implanted bare wafers; implanted photoresist-containing wafer sheet resistance; ion gauge; ion-residual gas charge exchange; photoresist outgassing; plasma shower systems; pressure compensation systems; Automation; Availability; Charge measurement; Current measurement; Magnetic analysis; Particle beams; Plasmas; Pressure control; Pressure measurement; Resists;
fLanguage
English
Publisher
ieee
Conference_Titel
Ion Implantation Technology, 2000. Conference on
Conference_Location
Alpbach
Print_ISBN
0-7803-6462-7
Type
conf
DOI
10.1109/.2000.924245
Filename
924245
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