Title :
Optimization of secondary electron flood design for the production of low energy electrons
Author :
Reece, R.N. ; Erokhin, Y. ; Simonton, R. ; Freer, B. ; Kuang-Lun, Lin ; Frank-Pohua, Lin
Author_Institution :
Semicond. Equipment Oper., Eaton Corp., Beverly, MA, USA
Abstract :
Modern high current implanters utilize secondary electron flood (SEF) or plasma electron flood (PEF) technology to provide charging control. Excessive negative charging may occur in the presence of electrons with a high energy distribution. We present a description for charge distribution within the ion beam, charge interaction at the device level, and optimization of an SEF design to allow only low energy electrons to reach the wafer. This results in a very wide operating window for varied primary currents. Performance improvements are quantified using charge to breakdown (Qbd) structures developed to characterize charging performance. We demonstrate that an optimized secondary electron flood design allows us to achieve a minimal gate oxide damage even under extreme conditions of ion implantation (dose, beam current)
Keywords :
beam handling techniques; charge measurement; ion implantation; particle beam diagnostics; secondary electron emission; space charge; surface charging; Eaton NV-GSD/200 high current ion implanter; charge distribution; charge to breakdown structures; charging control; device level charge interaction; gate oxide damage; high current implanters; ion beam; low energy electron production; performance improvements; secondary electron flood design optimization; wafer charging; wide operating window; Design for quality; Design optimization; Electric breakdown; Electron beams; Floods; Ion beams; Ion implantation; Optimized production technology; Plasma devices; Plasma immersion ion implantation;
Conference_Titel :
Ion Implantation Technology. Proceedings of the 11th International Conference on
Conference_Location :
Austin, TX
Print_ISBN :
0-7803-3289-X
DOI :
10.1109/IIT.1996.586272
