Predominant incorporation of Bi atoms on (111)B rather than on (111)A with a stack-fault interface in InP<sub>1-x</sub>Bi<sub>x</sub> nanowires

Guoqiang Zhang; Kouta Tateno; Katsuya Oguri; Hideki Gotoh

4:00 PM - 4:15 PM

[12p-N406-12] Predominant incorporation of Bi atoms on (111)B rather than on (111)A with a stack-fault interface in InP_1-xBi_x nanowires

〇Guoqiang Zhang^1,2, Kouta Tateno^1,2, Katsuya Oguri¹, Hideki Gotoh¹ (1.NTT BRL, 2.NTT NPC)

Keywords:semiconductor, nanowire, heterointerface

Diluted Bismuth-contained III-V compound semiconductors are attracting much more interests due to its potential applications in spintronic and optoelectronic devices. The formation of their heterostructures with abrupt interfaces still remains challenging. Furthermore, it is essential to enhance the understanding about Bi-atom behaviour in heterostructure formation. Here we report growth and characterization of <112>-oriented InP_1-xBi_x nanowires grown by self-catalyzed vapor-liquid-solid (VLS) mode. We have clarified predominant incorporation of Bi atoms on (111)B rather than on (111)A. Such polarity-dependent incorporation behavior of Bi atoms leads to heterostructure formation with stacking-fault interfaces in InP_1-xBi_x nanowires.

Presentation information

[12p-N406-1~12] 15.3 III-V-group epitaxial crystals, Fundamentals of epitaxy

[12p-N406-12] Predominant incorporation of Bi atoms on (111)B rather than on (111)A with a stack-fault interface in InP_1-xBi_x nanowires

Presentation information

[12p-N406-1~12] 15.3 III-V-group epitaxial crystals, Fundamentals of epitaxy

[12p-N406-12] Predominant incorporation of Bi atoms on (111)B rather than on (111)A with a stack-fault interface in InP1-xBix nanowires

[12p-N406-12] Predominant incorporation of Bi atoms on (111)B rather than on (111)A with a stack-fault interface in InP_1-xBi_x nanowires