离子掺杂系统中大尺寸离子束直流pfg的研制

Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on Pub Date : 1900-01-01 DOI:10.1109/IIT.2002.1258001

S. Maeno, Y. Ando, Y. Inouchi, H. Tanaka, M. Naito

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引用次数: 0

摘要

为了在平板显示器(FPD)掺杂过程中中和大尺寸离子束，研制了一种能产生(50 mA)电子通量的小型DC-PFG (DC-PFG)。为了产生大电流的电子通量，该PFG包括一个带钨丝阴极的多尖弧室，一个单孔用于提取电子，一个带轴向磁场的漂移管用于将电子送入离子束。PFG没有任何气体供给，而是从离子源流入的掺杂气体，用于离子束的形成。研制了一种FPD玻璃片掺杂过程中充电电压的实时测量系统。它采用玻璃片背面的一些薄膜电极进行电压感应。使用该系统和附加的静电探针，得出紧凑的PFG可以中和大尺寸离子束并减少FPD玻璃片上的充电。

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Development of DC-PFG for a large size ion beam in ion doping system

A compact DC-plasma flood gun (DC-PFG) producing (50 mA) electron flux was developed for neutralization of a large size ion beam in doping process of flat panel displays (FPD). To produce the high current electron flux, this PFG contains a multi-cusp type arc chamber with a tungsten filament cathode, single hole to extract the electron and a drift tube with an axial magnetic field to send the electron into ion beam. The PFG doesn't have any gas feeding but dopant gas flowing-in from an ion source for the ion beam formation. A real time measurement system of charge-up voltages on the FPD glass sheets in the midst of doping process was also developed. It adopts some thin film electrodes on the backside surface of glass sheet for voltage sensing. Using this system and additional electrostatic probes, it was concluded that the compact PFG could neutralize the large size ion beam and reduce the charge-up on the FPD glass sheets.

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Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on

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