Analysis of reaction between c+a and -c+a dislocations in GaN layer grown on 4-inch Si(111) substrate with AlGaN/AlN strained layer superlattice by transmission electron microscopy | Zendy

Yoshihiro Sugawara | Zendy; Yukari Ishikawa | Zendy; Arata Watanabe | Zendy; Makoto Miyoshi | Zendy; Takashi Egawa | Zendy

Open Access

Analysis of reaction between c+a and -c+a dislocations in GaN layer grown on 4-inch Si(111) substrate with AlGaN/AlN strained layer superlattice by transmission electron microscopy

Author(s) -

Yoshihiro Sugawara,

Yukari Ishikawa,

Arata Watanabe,

Makoto Miyoshi,

Takashi Egawa

Publication year - 2016

Publication title -

aip advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.421

H-Index - 58

ISSN - 2158-3226

DOI - 10.1063/1.4948451

Subject(s) - transmission electron microscopy , dislocation , materials science , superlattice , layer (electronics) , chemical vapor deposition , substrate (aquarium) , dark field microscopy , electron diffraction , crystallography , optoelectronics , diffraction , optics , microscopy , nanotechnology , composite material , chemistry , oceanography , physics , geology

The behavior of dislocations in a GaN layer grown on a 4-inch Si(111) substrate with an AlGaN/AlN strained layer superlattice using horizontal metal-organic chemical vapor deposition was observed by transmission electron microscopy. Cross-sectional observation indicated that a drastic decrease in the dislocation density occurred in the GaN layer. The reaction of a dislocation (b=1/3[-211-3]) and anothor dislocation (b =1/3[-2113]) to form one dislocation (b =2/3[-2110]) in the GaN layer was clarified by plan-view observation using weak-beam dark-field and large-angle convergent-beam diffraction methods

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