Open-core screw dislocations in GaN epilayers observed by scanning force microscopy and high-resolution transmission electron microscopy

Open-core screw dislocations in GaN epilayers observed by scanning force microscopy and high-resolution transmission electron microscopy

Structural investigations of organometallic vapor phase epitaxy grown α-GaN films using high-resolution transmission electron microscopy and scanning force microscopy have revealed the presence of tunnel-like defects with 35–500 Å radii that are aligned along the growth direction of the crystal and...

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Veröffentlicht in:Applied physics letters 1995-10, Vol.67 (16), p.2284-2286
Hauptverfasser: Qian, W., Rohrer, G. S., Skowronski, M., Doverspike, K., Rowland, L. B., Gaskill, D. K.
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container_end_page 2286
container_issue 16
container_start_page 2284
container_title Applied physics letters
container_volume 67
creator Qian, W.
Rohrer, G. S.
Skowronski, M.
Doverspike, K.
Rowland, L. B.
Gaskill, D. K.
description Structural investigations of organometallic vapor phase epitaxy grown α-GaN films using high-resolution transmission electron microscopy and scanning force microscopy have revealed the presence of tunnel-like defects with 35–500 Å radii that are aligned along the growth direction of the crystal and penetrate the entire epilayer. These defects, which are termed ‘‘nanopipes,’’ terminate on the free surface of the film at the centers of hexagonal growth hillocks and form craters with 600–1000 Å radii. Either one or two pairs of monolayer-height spiral steps were observed to emerge from the surface craters which allowed us to conclude that nanopipes are the open cores of screw dislocations. The measured dimensions of the defects are compared to Frank’s theory for the open-core dislocation.
doi_str_mv 10.1063/1.115127
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title Open-core screw dislocations in GaN epilayers observed by scanning force microscopy and high-resolution transmission electron microscopy
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