T
Thai-Truong D. Tran
Researcher at University of California, Berkeley
Publications - 28
Citations - 1099
Thai-Truong D. Tran is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Nanopillar & Silicon. The author has an hindex of 14, co-authored 28 publications receiving 1023 citations. Previous affiliations of Thai-Truong D. Tran include University of California.
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Journal ArticleDOI
Nanolasers grown on silicon
Roger Chen,Thai-Truong D. Tran,Kar Wei Ng,Wai Son Ko,L.C. Chuang,Forrest G. Sedgwick,Connie J. Chang-Hasnain +6 more
TL;DR: Based on a CMOS-compatible growth process, the authors successfully demonstrate the bottom-up integration of InGaAs nanopillar lasers onto silicon chips, and the resulting nanolaser offers tiny footprints and scalability, making it particularly suited to high-density optoelectronics.
Journal ArticleDOI
GaAs-Based Nanoneedle Light Emitting Diode and Avalanche Photodiode Monolithically Integrated on a Silicon Substrate
L.C. Chuang,Forrest G. Sedgwick,Roger Chen,Wai Son Ko,M. Moewe,Kar Wei Ng,Thai-Truong D. Tran,Connie J. Chang-Hasnain +7 more
TL;DR: The first GaAs-based avalanche photodiodes and light emitting diodes, directly grown on silicon at a very low, CMOS-compatible temperature and fabricated using conventional microfabrication techniques, exhibit an extraordinarily large multiplication factor at low voltage.
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Nanophotonic integrated circuits from nanoresonators grown on silicon
Roger Chen,Kar Wei Ng,Wai Son Ko,Devang Parekh,Fanglu Lu,Thai-Truong D. Tran,Kun Li,Connie J. Chang-Hasnain +7 more
TL;DR: An on-chip optical link constructed from InGaAs nanoresonators grown directly on a silicon substrate is demonstrated and a roadmap towards future ultradense nanophotonic integrated circuits is revealed.
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Tailoring the optical characteristics of microsized InP nanoneedles directly grown on silicon.
Kun Li,Hao Sun,Hao Sun,Fan Ren,Kar Wei Ng,Thai-Truong D. Tran,Roger Chen,Connie J. Chang-Hasnain +7 more
TL;DR: Recombination dynamics proves the excellent surface quality of the InP nanoneedles, which paves the way toward achieving multijunction photovoltaic cells, long-wavelength heterostructure lasers, and advanced photonic integrated circuits.
Journal ArticleDOI
Unconventional growth mechanism for monolithic integration of III-V on silicon.
Kar Wei Ng,Wai Son Ko,Thai-Truong D. Tran,Roger Chen,Maxim V. Nazarenko,Fanglu Lu,Vladimir G. Dubrovskii,Martin Kamp,Alfred Forchel,Connie J. Chang-Hasnain +9 more
TL;DR: The findings in this study redefine the rules for lattice-mismatched growth on heterogeneous substrates and device structure design.