Factor Design for the Oxide Etching Process to Reduce Edge Particle Contamination in Capacitively Coupled Plasma Etching Equipment

During the oxide layer etching process, particles in capacitively coupled plasma etching equipment adhere to the wafer edge and cause defects that reduce the yield from semiconductor wafers. To reduce edge particle contamination in plasma etching equipment, we propose changes in the voltage and temp...

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Bibliographic Details
Published in:Applied sciences 2022-06, Vol.12 (11), p.5684
Main Authors: Ku, Ching-Ming, Cheng, Stone
Format: Article
Language:English
Subjects:
By products
Contamination
Design factors
Dust
edge particle
Electric fields
Electric potential
Electrodes
Etching
Etching equipment
Flow rates
Flow velocity
Gas flow
Gas pressure
oxide layer etching
plasma dry etching
Plasma etching
Plasma jets
Plasma sheaths
Preventive maintenance
Process parameters
Radio frequency plasma
Sheaths
Voltage
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Summary:During the oxide layer etching process, particles in capacitively coupled plasma etching equipment adhere to the wafer edge and cause defects that reduce the yield from semiconductor wafers. To reduce edge particle contamination in plasma etching equipment, we propose changes in the voltage and temperature of the electrostatic chuck, plasma discharge sequence, gas flow, and pressure parameters during the etching process. The proposed edge particle reduction method was developed by analyzing particle maps after wafer etching. Edge particle adherence in plasma etching equipment can be reduced by decreasing the voltage and temperature changes of the electrostatic chuck and generating a plasma sheath with a continuous discharge sequence of radio-frequency plasma. The gas pressure and flow rate also affect the number of wafer edge particles. Experimental results were used to optimize the equipment parameters to reduce edge particle contamination and improve edge wafer defects after dry etching.
ISSN:2076-3417
2076-3417
DOI:10.3390/app12115684