Characterization of Solid-Phase Epitaxially-Grown Silicon Films on SiO2
- 1 October 1984
- journal article
- Published by IOP Publishing in Japanese Journal of Applied Physics
- Vol. 23 (10R) , 1294-1299
- https://doi.org/10.1143/jjap.23.1294
Abstract
Lateral solid-phase epitaxial (L-SPE) films of vacuum-deposited Si on SiO2 have been examined, mainly through TEM observation, and compared with (100) vertical solid-phase epitaxial (V-SPE) films. Typical defects in L-SPE layers with a rough growth front are high-density twins and dislocations, which are generated regardless of whether the films are or laterally-grown films. On the other hand, in V-SPE layers containing low-density short dislocations, {111} and {110} facets are formed at the and directed oxide window edges, respectively. The facets are thought to act as a barrier for the change from V-SPE to L-SPE across the SiO2 edge. Successive 1050°C high-temperature heat treatment generates interstitial-type faulted and unfaulted dislocation loops in Si+ ion implanted V-SPE layers. This is in contrast to the reduced dislocation density resulting in L-SPE layers containing no residual amorphous regions after the first 600°C annealing.Keywords
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