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Research Interests:
Condensed-matter theory; materials theory; quantum coherent systems and quantum information
His focus is on quantum coherent systems, especially of the coherent evolution of small collections of individual spins in semiconductor materials. This focus extends to the single-spin level, including that achievable with individual dopant atoms in semiconductors and often how these properties can be observed with scanning tunneling microscopy. Flatté is also a Full Professor at the University of Iowa, with research interests including the coherent and correlated properties of spin systems in the solid state, carrier dynamics in semiconductor optoelectronic materials and devices, and novel spintronic devices.
His principal research goal is to understand and predict the practical extent of quantum coherent behavior at room temperature and to explore the implications of this behavior for novel quantum sensing and realizations of quantum computation. He has proposed novel approaches for quantum operations such as teleportation, new forms of quantum sensing and novel logic devices that rely on electron spin coherence.
Flatté is a fellow of the American Association for the Advancement of Science and of the American Physical Society.
Condensed-matter theory; materials theory; quantum coherent systems and quantum information
His focus is on quantum coherent systems, especially of the coherent evolution of small collections of individual spins in semiconductor materials. This focus extends to the single-spin level, including that achievable with individual dopant atoms in semiconductors and often how these properties can be observed with scanning tunneling microscopy. Flatté is also a Full Professor at the University of Iowa, with research interests including the coherent and correlated properties of spin systems in the solid state, carrier dynamics in semiconductor optoelectronic materials and devices, and novel spintronic devices.
His principal research goal is to understand and predict the practical extent of quantum coherent behavior at room temperature and to explore the implications of this behavior for novel quantum sensing and realizations of quantum computation. He has proposed novel approaches for quantum operations such as teleportation, new forms of quantum sensing and novel logic devices that rely on electron spin coherence.
Flatté is a fellow of the American Association for the Advancement of Science and of the American Physical Society.
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Qin Xu, Hil Fung Harry Cheung, Donley S. Cormode,Tharnier O. Puel, Srishti Pal,Huma Yusuf,Michael Chilcote,Michael E. Flatte,Ezekiel Johnston-Halperin,Gregory D. Fuchs
ADVANCED SCIENCEno. 14 (2024): e2310032-e2310032
Stephen J. Moxim, Nicholas J. Harmon,Kenneth J. Myers,James P. Ashton,Elias B. Frantz,Michael E. Flatté,Patrick M. Lenahan,Jason T. Ryan
Journal of Applied Physicsno. 15 (2024)
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICAno. 2 (2024): e2313754120-e2313754120
Patrick M. Lenahan, E. B. Frantz,Sean W. King,Mark A. Anders, S. J. Moxim,James P. Ashton, Kyle J. Myers,M. E. Flatté,N. J. Harmon
IRPSpp.1-6, (2023)
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APPLIED PHYSICS LETTERSno. 25 (2023)
Uri Zvi,Denis R. Candido,Adam Weiss, Aidan R. Jones, Lingjie Chen, Iryna Golovina,Xiaofei Yu, Stella Wang,Dmitri V. Talapin,Michael E. Flatté,Aaron P. Esser-Kahn,Peter C. Maurer
Research Square (Research Square) (2023)
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