Title :
Etch damage removal process without Si substrate loss employing hydrogen-plasma after treatment
Author :
Sekiyama, Sumio ; Hayashi, Shunji ; Iwasaki, Kenya
Author_Institution :
Miyazaki Oki Electr. Co. Ltd., Japan
Abstract :
Hydrogen-plasma after treatment (HAT) technique has been investigated to remove oxide etch damage. Using the HAT technique complete oxidation is performed even on a etch-damaged Si substrate. This causes smaller surface roughness and higher breakdown voltage of the oxide film. Contact resistance drastically decreases with an application of the HAT. SiC layer formed by oxide etching on the contact hole bottoms locally vanishes, which generates an epitaxial growth of upper polysilicon deposition. And Si loss of the hole bottom is one tenth in comparison with the conventional light etching process
Keywords :
ULSI; contact resistance; plasma materials processing; semiconductor device breakdown; silicon-on-insulator; surface topography; surface treatment; HAT technique; Si; ULSI; breakdown voltage; contact hole bottoms; contact resistance; epitaxial growth; hydrogen-plasma after treatment; oxide etch damage removal process; surface roughness; upper polysilicon deposition; Contact resistance; Epitaxial growth; Etching; Oxidation; Rough surfaces; Silicon carbide; Substrates; Surface resistance; Surface roughness; Surface treatment;
Conference_Titel :
Semiconductor Manufacturing Conference Proceedings, 1999 IEEE International Symposium on
Conference_Location :
Santa Clara, CA
Print_ISBN :
0-7803-5403-6
DOI :
10.1109/ISSM.1999.808772
