Dynamic nuclear magnetic resonance field sensing with part-per-trillion resolution

The measurement of high magnetic fields has been limited to sensitivities in the nanotesla range. Here, the authors report advances in high-field magnetometry based on nuclear magnetic resonance, achieving resolution in the order of picoteslas or one part per trillion in relative terms.

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Détails bibliographiques
Auteurs principaux:	Simon Gross, Christoph Barmet, Benjamin E. Dietrich, David O. Brunner, Thomas Schmid, Klaas P. Pruessmann
Format:	article
Langue:	EN
Publié:	Nature Portfolio 2016
Sujets:	Science Q
Accès en ligne:	https://doaj.org/article/abd0aeb1edce4d1eafc8c6ceea32e2ac
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Description
Résumé:	The measurement of high magnetic fields has been limited to sensitivities in the nanotesla range. Here, the authors report advances in high-field magnetometry based on nuclear magnetic resonance, achieving resolution in the order of picoteslas or one part per trillion in relative terms.

Dynamic nuclear magnetic resonance field sensing with part-per-trillion resolution

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