Electron microscopy study of microvoid generation in molecular-beam epitaxy-grown silicon
- Inst. for Microstructural Sciences, Ottawa, Ontario (Canada)
In a study of (100)Si growth by molecular-beam epitaxy, the authors have observed an interesting phenomenon associated with the breakdown of (100)-oriented growth at low temperatures (> {approximately}400C). Electron microscope imaging revealed that the (100) surface no longer remains planar but develops a series of cusps with (111) oriented facets. At the base of each cusp a small ({approximately}3nm) cylindrically shaped defect region is formed, but this is morphologically unstable and breaks down to form a linear array of spherical defects trailing behind the growing interface, aligned parallel to the growth direction. The similarities observed between these structures and those found in the unidirectional solidification of rod eutectoids or monotectoids are striking, although the scale of the microstructure in the present case is much smaller. From a series of electron microscopy experiments using both cross-sectional and plan-view specimen geometries it has been found that the cylindrical-spherical defects are microvoid regions. Furthermore, the microvoid defect structure was found to be stable as the epitaxial Si matrix transformed to the polycrystalline and amorphous states beyond and epitaxial critical thickness.
- OSTI ID:
- 7237819
- Report Number(s):
- CONF-901035-; CODEN: JVTBD
- Journal Information:
- Journal of Vacuum Science and Technology. B, Microelectronics Processing and Phenomena; (United States), Vol. 9:4; Conference: 37. national American Vacuum Society symposium, Toronto (Canada), 8-12 Oct 1990; ISSN 0734-211X
- Country of Publication:
- United States
- Language:
- English
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