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The goal of my research is to advance the physical foundations of devices and develop new kinds of devices. As devices have been made smaller, quantum effects have become important. These effects already influence the operation of commercial devices. We are investigating new device designs, which will take advantage of quantum mechanical processes to provide a route to further device scaling and performance improvements. For example, “quantum dots” – a few hundred or thousand molecules of one material embedded in another – exhibit a range of useful properties for new types of semiconductor emitters and detectors.
An important component of our research is directed towards developing fully quantum-coherent devices as needed for quantum information processing. While quantum computation theoretically provides revolutionary advances, the physical realization will be exceptionally challenging. Our major emphasis has been on demonstrating ways to use the spin of an electron as a quantum bit (qubit). For example, we have found that the quantum coherence of electron’s spins in a silicon crystal can be preserved for almost a second, two or three orders of magnitude larger than has been measured in other materials.
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K E Castoria, H Byeon, J Theis, N R Beysengulov, E O Glen, G Koolstra, M Sammon,S A Lyon, J Pollanen, D G Rees
The Review of scientific instrumentsno. 4 (2024)
Kevin D. Crowley, Russell A. McLellan,Aveek Dutta,Nana Shumiya,Alexander P. M. Place,Xuan Hoang Le,Youqi Gang,Trisha Madhavan, Matthew P. Bland, Ray Chang,Nishaad Khedkar, Yiming Cady Feng,
PHYSICAL REVIEW Xno. 4 (2023): 041005
Rouven Essig,Graham K. Giovanetti,Noah Kurinsky,Dan McKinsey,Karthik Ramanathan, Kelly Stifter,Tien-Tien Yu,A. Aboubrahim, D. Adams, D. S. M. Alves, T. Aralis, H. M. Araújo,
arxiv(2023)
arxiv(2023)
引用2浏览0引用
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arxiv(2022)
K. E. Castoria,S. A. Lyon
Journal of Low Temperature Physicsno. 3-4 (2022): 441-450
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