Title :
Prediction of plasma charging induced gate oxide damage by plasma charging probe
Author :
Ma, Shawming ; McVittie, James P. ; Saraswat, Krishna C.
Author_Institution :
Center for Integrated Syst., Stanford Univ., CA, USA
Abstract :
The plasma processing induced wafer charging damage is predicted by the newly developed SPORT (Stanford Plasma On-wafer Real Time) charging probe. Such a probe can directly measure the spatial charging voltage built up on a wafer surface as well as the charging current from the plasma. Both antenna dependence of damage and charge fluence through a gate oxide due to charging can be calculated from the intersection between plasma I-V characteristic measured by the probe and intrinsic MOS I-V characteristic. This result agrees well with the real MOS capacitor damage data from O/sub 2/ plasma processing. Thus, given a fluence criteria, this methodology gives a means for predicting the minimum antenna ratio for observable damage.
Keywords :
MOS capacitors; electric current measurement; plasma probes; sputter etching; surface charging; voltage measurement; MOS capacitor; O/sub 2/; O/sub 2/ plasma processing; SPORT; Si; Stanford plasma on-wafer real time charging probe; antenna dependence; charge fluence; intrinsic MOS I-V characteristic; minimum antenna ratio; plasma I-V characteristic; plasma charging current measurement; plasma charging induced gate oxide damage; plasma charging probe; plasma etching; plasma processing induced wafer charging damage; spatial charging voltage measurement; Antenna measurements; Charge measurement; Current measurement; MOS capacitors; Plasma materials processing; Plasma measurements; Plasma properties; Probes; Surface charging; Voltage;
Journal_Title :
Electron Device Letters, IEEE
