1. Mechanism for difference in etched depth between isolated and dense via holes of SiOCH film
- Author
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Yoshinori Momonoi, Masaru Izawa, and Kazumasa Yonekura
- Subjects
Materials science ,genetic structures ,Thermal desorption spectroscopy ,Analytical chemistry ,Copper interconnect ,Surfaces and Interfaces ,Dielectric ,Plasma ,Condensed Matter Physics ,Surfaces, Coatings and Films ,Etching (microfabrication) ,Wafer ,Thin film ,Layer (electronics) - Abstract
We investigated the mechanism for differences in etched depth between isolated and dense via holes of a damascene structure using a SiOCH film (k=2.8). In Ar∕CHF3∕N2 and Ar∕C4F6∕N2 plasmas, the depth of an isolated (4.8μm pitch) hole was more than 40% varied from a dense (200nm pitch) hole. The difference between dense and isolated holes was found to become larger with increasing air exposure time of the wafer. The amount of H2O in the SiOCH film also increased with increasing air exposure time based on thermal desorption spectroscopy (TDS) analysis. Therefore, we investigated the effects of H2O addition to the plasmas. The investigation revealed that the etched depths of dense holes became similar to those of isolated holes with H2O addition. Based on these results, we concluded that the mechanism for the difference between isolated and dense holes was as follows. When the capping layer on SiOCH is etched, the H2O contained in SiOCH desorbs in etched holes and affects etching reactions. The etching chara...
- Published
- 2006