DOI | Resolve DOI: https://doi.org/10.1126/science.aad2449 |
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Author | Search for: Losby, J. E.1; Search for: Sani, F. F.; Search for: Grandmont, D. T.; Search for: Diao, Z.1; Search for: Belov, M.1; Search for: Burgess, J. A. J.1; Search for: Compton, S. R.1; Search for: Hiebert, W. K.1; Search for: Vick, D.1; Search for: Mohammad, K.; Search for: Salimi, E.; Search for: Bridges, G. E.; Search for: Thomson, D. J.; Search for: Freeman, M. R.1 |
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Affiliation | - National Research Council of Canada. National Institute for Nanotechnology
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Format | Text, Article |
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Abstract | A universal, torque-mixing method for magnetic resonance spectroscopy is presented. In analogy to resonance detection by magnetic induction, the transverse component of a precessing dipole moment can be measured in sensitive broadband spectroscopy, here using a resonant mechanical torque sensor. Unlike induction, the torque amplitude allows equilibrium magnetic properties to be monitored simultaneously with the spin dynamics. Comprehensive electron spin resonance spectra of a single-crystal, mesoscopic yttrium iron garnet disk at room temperature reveal assisted switching between magnetization states and mode-dependent spin resonance interactions with nanoscale surface imperfections. The rich detail allows analysis of even complex three-dimensional spin textures. The flexibility of microelectromechanical and optomechanical devices combined with broad generality and capabilities of torque-mixing magnetic resonance spectroscopy offers great opportunities for development of integrated devices. |
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Publication date | 2015-11-13 |
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Publisher | American Association for the Advancement of Science |
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In | |
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Language | English |
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Peer reviewed | Yes |
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NPARC number | 23001703 |
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Export citation | Export as RIS |
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Report a correction | Report a correction (opens in a new tab) |
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Record identifier | e15b9dc5-8644-4d4f-b7de-07a02fb3ad6d |
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Record created | 2017-03-20 |
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Record modified | 2020-04-22 |
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