Development of a magnetron-enhanced plasma process for tungsten etchback with response-surface methodology

Development of a magnetron-enhanced plasma process for tungsten etchback with response-surface methodology

A two-step etchback process to form tungsten plugs in submicron contacts and vias has been developed. the process uses an Applied Materials Inc., P5000 WCVD magnetron-enhanced, single-wafer system with an experimental design and response-surface methodology. Tungsten is first etched with an Ar/SF/su...

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Veröffentlicht in:IEEE transactions on semiconductor manufacturing 1990-08, Vol.3 (3), p.142-144
Hauptverfasser: Riley, P.E., Chang, M., Ghanayem, S.G., Mak, A.
Format: Artikel
Sprache:eng
Schlagworte:
Argon
Etching
Magnetic field measurement
Magnetic films
Magnetic materials
Plasma applications
Plasma materials processing
Plasma measurements
Tin
Tungsten
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Zusammenfassung:A two-step etchback process to form tungsten plugs in submicron contacts and vias has been developed. the process uses an Applied Materials Inc., P5000 WCVD magnetron-enhanced, single-wafer system with an experimental design and response-surface methodology. Tungsten is first etched with an Ar/SF/sub 6/ mixture until excited N/sub 2/ molecules from the underlying TiN adhesion layer are detected in the plasma. Residual TiN is then etched for a fixed time with an Ar/Cl/sub 2/ plasma. Both steps employ a rotating 0.5-Hz magnetic field. Although the use of the magnetic field has no pronounced effect on the etch rate of either film, it provides broad regions of high etch uniformity. In addition, the DC-bias voltage measured as part of the TiN study decreases with increasing magnetic field strength without reducing the etch rate of the film.< >
ISSN:0894-6507
1558-2345
DOI:10.1109/66.56570