Top-down fabrication for III-nitride nanophotonics

George T. Wang,Benjamin Leung,Changyi Li,Miao-Chan Tsai,Sheng Liu,Jeremy B. Wright,Daniel D. Koleske,Ping Lu,Jeffrey J. Figiel,Ting S. Luk,Igal Brener,Arthur J. Fischer,Xiaoyin Xiao,Jeffrey Y. Tsao,Michael E. Coltrin,Ganesh Balakrishnan,Steven R. J. Brueck

2017 IEEE Photonics Society Summer Topical Meeting Series (SUM)（2017）

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摘要

III-nitride based nanostructures have gained interest as nanoscale light sources in the UV to visible wavelengths. Here we present a top-down approach to enable vertical, high aspect ratio III-nitride-based nanowires with controllable height, pitch, and diameter. Additionally, through the use of orientation-dependent etch rate measurements, the cross-sections of such nanostructures can be predicted and controlled, which can allow for the manipulation of optical properties. The fabrication and lasing characteristics of GaN-based nanowires fabricated by this approach will be presented, along with schemes for single optical mode selection, polarization control, beam shaping, and wavelength tuning. Finally, we present a new method for the etching of size-controlled InGaN quantum dots (QDs) using quantum size effects.

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关键词

top-down fabrication,III-nitride nanophotonics,III-nitride based nanostructures,nanoscale light sources,UV wavelengths,visible wavelengths,vertical high aspect ratio III-nitride-based nanowires,orientation-dependent etch rate measurements,nanostructure cross-sections,optical properties,fabrication characteristics,lasing characteristics,GaN-based nanowires,single optical mode selection,polarization control,beam shaping,wavelength tuning,size-controlled InGaN quantum dot etching,quantum size effects,AlGaN

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