Orientation Dependence of Lateral Solid-Phase-Epitaxial Growth in Amorphous Si Films

1 May 1986

journal article
Published by IOP Publishing in Japanese Journal of Applied Physics

Vol. 25 (5R)
https://doi.org/10.1143/jjap.25.667

Abstract

The characteristics of the lateral solid-phase-epitaxial (L-SPE) growth of undoped and P-doped amorphous Si (a-Si) films on SiO₂ patterns formed in various directions on (100) and (110)Si substrates were investigated. It was found that (1) the L-SPE growth length becomes a minimum in directions such that {111} facet planes can be formed parallel to the SiO₂ pattern edge and (2) the growth rates in these directions are constant. It was also found that the growth rates in other directions are faster in the initial stages of L-SPE, but decrease with the annealing time and reach the same saturated value as the above constant rate. The L-SPE growth rates were also compared with the growth rate of polycrystalline grains in P-doped a-Si films.

Keywords

This publication has 8 references indexed in Scilit:

Boron Doping Effects in Lateral Solid Phase Epitaxy of Amorphous Si Films
Japanese Journal of Applied Physics, 1985
Lateral Solid-Phase Epitaxy of Vacuum-Deposited Amorphous Si Film over Recessed SiO₂ Patterns
Japanese Journal of Applied Physics, 1985
On the Mechanisms of Lateral Solid Phase Epitaxial Growth of Amorphous Si Films Evaporated on SiO₂ Patterns
Japanese Journal of Applied Physics, 1985
Enhancement of lateral solid phase epitaxial growth in evaporated amorphous Si films by phosphorus implantation
Applied Physics Letters, 1985
Characterization of Solid-Phase Epitaxially-Grown Silicon Films on SiO₂
Japanese Journal of Applied Physics, 1984
Amorphous-Si/crystalline-Si facet formation during Si solid-phase epitaxy near Si/SiO2 boundary
Journal of Applied Physics, 1984
Lateral solid phase epitaxy of amorphous Si films on Si substrates with SiO2 patterns
Applied Physics Letters, 1983
Solid-phase lateral epitaxy of chemical-vapor-deposited amorphous silicon by furnace annealing
Journal of Applied Physics, 1983