Abstract
The defect structure of ion irradiation damage localized in latent tracks in amorphous and their role in the chemical etch rate of such tracks has been studied. A variety of light and heavy ions were used with energies ranging from 4 to 127 MeV. It was found that the frequency of the infrared absorption associated with the asymmetric stretch vibration of Si-O was significantly reduced following swift heavy-ion bombardment and that the shift correlated with the enhancement of the etching rate. In contrast, no correlation between the etching rate and either the center or the oxygen deficient center was observed. The IR peak shift has been related to the transition of ordinal six rings of tetrahedra to planar three- and four-member rings, which were generated in the latent track due to the flash heating and quenching by bombardment. We propose that large numbers of planar three- and four-member rings in the latent track are responsible for the fast chemical etching rate.
- Received 1 February 2000
DOI:https://doi.org/10.1103/PhysRevB.62.3689
©2000 American Physical Society