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Machine learning enables design of on-chip integrated silicon T-junctions with footprint of 1.2 μm×1.2μm

Journal article

Sourangsu Banerji, Apratim Majumder, Alex Hamrick, R. Menon, B. S. Rodriguez
Nano Commun. Networks, 2020
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APA   Click to copy
Banerji, S., Majumder, A., Hamrick, A., Menon, R., & Rodriguez, B. S. (2020). Machine learning enables design of on-chip integrated silicon T-junctions with footprint of 1.2 μm×1.2μm. Nano Commun. Networks.

Chicago/Turabian   Click to copy
Banerji, Sourangsu, Apratim Majumder, Alex Hamrick, R. Menon, and B. S. Rodriguez. “Machine Learning Enables Design of on-Chip Integrated Silicon T-Junctions with Footprint of 1.2 Μm×1.2μm.” Nano Commun. Networks (2020).

MLA   Click to copy
Banerji, Sourangsu, et al. “Machine Learning Enables Design of on-Chip Integrated Silicon T-Junctions with Footprint of 1.2 Μm×1.2μm.” Nano Commun. Networks, 2020.

BibTeX   Click to copy 

@article{sourangsu2020a,
  title = {Machine learning enables design of on-chip integrated silicon T-junctions with footprint of 1.2 μm×1.2μm},
  year = {2020},
  journal = {Nano Commun. Networks},
  author = {Banerji, Sourangsu and Majumder, Apratim and Hamrick, Alex and Menon, R. and Rodriguez, B. S.}
}