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AbstractAbstract
[en] Full text: Nuclear electric resonance (NER) enables transitions of a high spin nucleus by modulating its electrical quadrupole interaction with an electric field. In this talk I will show how we found this effect in our single 123-Sb donor device in silicon, with nuclear spin of size 7/2. We demonstrate, for the first time, coherent, purely electrical control of a single high spin nucleus. I will share our current theoretical understanding of the microscopic mechanism at play in our device, based on analytical approximations and density functional theory calculations. (author)
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Rachel, Stephan; McCallum, Jeff (School of Physics, University of Melbourne, Parkville, NSW (Australia)); Karel, Julie (Materials Science and Engineering, Monash University, Clayton, VIC (Australia)); Parish, Meera (School of Physics and Astronomy, Monash University, Clayton, VIC (Australia)); The Australian Institute of Physics, North Melbourne, VIC (Australia); New Zealand Institute of Physics (New Zealand); 96 p; Feb 2019; p. 57; 43. Annual condensed matter and materials meeting; Wagga Wagga, NSW (Australia); 5-8 Feb 2019; Available online from: http://aip.org.au/annual-cmm-meetings/; Also available online from: https://aip.org.au/wp-content/uploads/cmm/2019/Wagga_2019_Conference_Handbook.pdf; Abstract only, full text entered in this record.
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