论文信息 - Growth mechanism and defect structures in epitaxial silicon

Growth mechanism and defect structures in epitaxial silicon

Abstract Thin layers of silicon have been grown epitaxially on silicon substrates by hydrogen reduction of trichlorosilane. The initial mode of growth of these films has been studied using electron microscopic methods to examine substrates and surfaces exposed to slow growth rate conditions for short periods. These observations have been supplemented by glancing angle electron diffraction studies of the same surfaces, and have shown that growth commences by a three-dimensional nucleation process, probably as a result of slight residual surface contamination. Chemical etching of grown surfaces has revealed that defect structures are present in the epitaxial layers. The nature and origin of these defects have been investigated by transmission electron microscopy and electron diffraction.

R. Bicknell | D. Stirland | J. M. Charig | B. Joyce

[1] B. A. Joyce,et al. Epitaxial Growth of Silicon by Hydrogen Reduction of SiHCl3 onto Silicon Substrates , 1962 .

[2] G. Schwuttke. X‐Ray Observations of Partial Dislocations in Epitaxial Silicon Films , 1962 .

[3] H. Queisser,et al. Stacking Faults in Epitaxial Silicon , 1962 .

[4] D. E. Bradley. Study of background structure in platinum/carbon shadowing deposits , 1960 .

[5] D. W. Pashley. The preparation of smooth single crystal surfaces of silver by an evaporation technique , 1959 .

[6] J. Silcox,et al. Direct observations of defects in quenched gold , 1959 .

[7] J. Hornstra. Dislocations in the diamond lattice , 1958 .

[8] M. Whelan,et al. Electron diffraction from crystals containing stacking faults: II , 1957 .

[9] G. Nomarski,et al. Application à la métallographie des méthodes interférentielles à deux ondes polarisées , 1955 .

[10] L. Lucas. Oriented chemical growth on single crystals of zinc and cadmium , 1952, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[11] D. W. Pashley. Oriented chemical overgrowths and surface topography , 1952, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[12] L. Lucas. LETTERS TO THE EDITOR: The Structure of Thin Layers of Zinc Oxide Grown on a Zinc Single Crystal , 1951 .

[13] G. Thomson. The Growth of Crystals , 1948 .