Particle contamination on a silicon substrate in a SF6/Ar plasma

Mithkal M. Smadi; George Y. Kong; Robert N. Carlile; Scott E. Beck; Majdi M. Smadi

doi:10.1116/1.586351

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Journal article

Particle contamination on a silicon substrate in a SF6/Ar plasma

Mithkal M. Smadi, George Y. Kong, Robert N. Carlile, Scott E. Beck and Majdi M. Smadi

Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, Vol.10(1), pp.30-36

01/1992

DOI: https://doi.org/10.1116/1.586351

Abstract

WAFERS

PLASMA

SULFUR FLUORIDES

SILICON

ETCHING

SURFACE CONTAMINATION

ARGON

Particle contamination on silicon wafers exposed to a SF6/Ar plasma is examined as a function of five critical plasma parameters using response surface methodology. Plasma parameters explored are 13.56 MHz rf power, pressure, process gas flow rate, 100 KHz wafer electrode power, and etch time. The experiment is conducted in a Tegal MCR‐1 single wafer reactor operated in the triode mode. Particle count is found to increase linearly as a function of 13.56 MHz rf power, 100 KHz power, and etch time. Also, the particle count has a quadratic dependence as a function of process gas flow rate. Surprisingly, in the pressure range explored, particle deposition on the wafers is found to be independent of pressure. Auger and EDX chemical analysis of the particles reveals the presence of silicon, fluorine, oxygen, sulfur, and aluminum.

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Title: Particle contamination on a silicon substrate in a SF6/Ar plasma
Creators - without role: Mithkal M. Smadi - University of Arizona
George Y. Kong - University of Arizona
Robert N. Carlile - University of Arizona
Scott E. Beck - University of Arizona
Majdi M. Smadi - University Ha'il
Publication Details: Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, Vol.10(1), pp.30-36
Number of pages: 7
Identifiers: 9932357908331
Academic Unit: University Ha'il
Language: English
Resource Type: Journal article