Title :
Reduction of loading effect by tungsten etchback in a magnetically enhanced reactive ion etcher
Author :
Ha, J.H. ; Kim, S.W. ; Seol, Y.S. ; Park, H.K. ; Choi, S.H.
Author_Institution :
Hyundai Semicond. R&D Lab., Ichon, South Korea
fDate :
5/1/1996 12:00:00 AM
Abstract :
The plug loading effect occurring during the etchback of tungsten was investigated in a magnetically enhanced reactive ion etcher using SF 6/Ar mixtures. It was found that while the plug loading effect is independent of varying SF6/Ar flow rate ratio and magnetic field intensity, it is reduced under the condition of high selectivity of tungsten relative to TiN which was achieved at high chamber pressure and low RF power. It is proposed that when TiN is used as a glue layer, the W etch rate enhancement in the plug is mainly controlled by a local loading effect. Under the optimized etchback conditions the plug loss was successfully controlled without the tungsten residue left on severe topology
Keywords :
metallisation; sputter etching; tungsten; SF6/Ar mixtures; W; glue layer; loading effect; magnetically enhanced reactive ion etcher; plug loss; selectivity; tungsten etchback; Argon; Circuit topology; Magnetic materials; Monitoring; Plugs; Scanning electron microscopy; Sputter etching; Tin; Tungsten; Very large scale integration;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
