Optimization-based ambient field compensation applied to fast-field cycling nuclear magnetic resonance experiments
Résumé
Fast-field cycling (FFC) nuclear magnetic resonance applications require compensation of the ambient magnetic field. This compensation may be stated in terms of a multi-objective optimization problem involving the spherical harmonics decomposition of the field generated by a set of
compensation coils. In this article, this optimization-based approach is detailed and applied to the particular case of a FFC relaxometer.
Domaines
Energie électriqueOrigine | Fichiers produits par l'(les) auteur(s) |
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