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FAIR DEAL Grand Challenge Overview

Allemang, Christopher R.; Anderson, Evan M.; Baczewski, Andrew D.; Bussmann, Ezra B.; Butera, Robert; Campbell, DeAnna M.; Campbell, Quinn C.; Carr, Stephen M.; Frederick, Esther; Gamache, Phillip G.; Gao, Xujiao G.; Grine, Albert D.; Gunter, Mathew M.; Halsey, Connor H.; Ivie, Jeffrey A.; Katzenmeyer, Aaron M.; Leenheer, Andrew J.; Lepkowski, William L.; Lu, Tzu-Ming L.; Mamaluy, Denis M.; Mendez Granado, Juan P.; Pena, Luis F.; Schmucker, Scott W.; Scrymgeour, David S.; Tracy, Lisa A.; Wang, George T.; Ward, Dan; Young, Steve M.

While it is likely practically a bad idea to shrink a transistor to the size of an atom, there is no arguing that it would be fantastic to have atomic-scale control over every aspect of a transistor – a kind of crystal ball to understand and evaluate new ideas. This project showed that it was possible to take a niche technique used to place dopants in silicon with atomic precision and apply it broadly to study opportunities and limitations in microelectronics. In addition, it laid the foundation to attaining atomic-scale control in semiconductor manufacturing more broadly.

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TYPE SAND Report YEAR 2021

DOI OSTI

Full-resolution two-color infrared detector

2021 IEEE Research and Applications of Photonics in Defense Conference, RAPID 2021

Anderson, Evan M.; Campbell, DeAnna M.; Briscoe, Jayson B.; Coon, Wesley T.; Alford, Charles A.; Wood, Michael G.; Klem, John F.; Gamache, Phillip G.; Gunter, Mathew M.; Olesberg, Jonathon T.; Hawkins, Samuel D.; Rohwer, Lauren E.; Stephenson, Chad A.; Peters, D.W.; Goldflam, Michael G.

We discuss thinned InAsSb resonant infrared detectors that are designed to enable high quantum efficiency by using interleaved nanoantennas to read out two wavelengths from each pixel simultaneously.

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TYPE Conference Presenation YEAR 2021

DOI OSTI Scopus