Highly stable magic angle spinning spherical rotors
<p>The use of spherical rotors for magic angle spinning offers a number of advantages, including improved sample exchange, efficient microwave coupling for dynamic nuclear polarization nuclear magnetic resonance (NMR) experiments, and, most significantly, high frequency and stable spinning wit...
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| Format: | Article |
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Copernicus Publications
2020-06-01
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| Series: | Magnetic Resonance |
| Online Access: | https://mr.copernicus.org/articles/1/97/2020/mr-1-97-2020.pdf |
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doaj-4332f1bf62a549249f30800a40ecee4d2021-08-02T19:46:38ZengCopernicus PublicationsMagnetic Resonance2699-00162020-06-0119710310.5194/mr-1-97-2020Highly stable magic angle spinning spherical rotorsT. M. Osborn PoppA. DäppC. GaoP.-H. ChenL. E. PriceN. H. AlanivaA. B. Barnes<p>The use of spherical rotors for magic angle spinning offers a number of advantages, including improved sample exchange, efficient microwave coupling for dynamic nuclear polarization nuclear magnetic resonance (NMR) experiments, and, most significantly, high frequency and stable spinning with minimal risk of rotor crash. Here we demonstrate the simple retrofitting of a commercial NMR probe with MAS spheres for solid-state NMR. We analyze a series of turbine groove geometries to investigate the importance of the rotor surface for spinning performance. Of note, rotors lacking any surface modification spin rapidly and stably even without feedback control. The high stability of a spherical rotor about the magic angle is shown to be dependent on its inertia tensor rather than the presence of turbine grooves.</p>https://mr.copernicus.org/articles/1/97/2020/mr-1-97-2020.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
T. M. Osborn Popp A. Däpp C. Gao P.-H. Chen L. E. Price N. H. Alaniva A. B. Barnes |
| spellingShingle |
T. M. Osborn Popp A. Däpp C. Gao P.-H. Chen L. E. Price N. H. Alaniva A. B. Barnes Highly stable magic angle spinning spherical rotors Magnetic Resonance |
| author_facet |
T. M. Osborn Popp A. Däpp C. Gao P.-H. Chen L. E. Price N. H. Alaniva A. B. Barnes |
| author_sort |
T. M. Osborn Popp |
| title |
Highly stable magic angle spinning spherical rotors |
| title_short |
Highly stable magic angle spinning spherical rotors |
| title_full |
Highly stable magic angle spinning spherical rotors |
| title_fullStr |
Highly stable magic angle spinning spherical rotors |
| title_full_unstemmed |
Highly stable magic angle spinning spherical rotors |
| title_sort |
highly stable magic angle spinning spherical rotors |
| publisher |
Copernicus Publications |
| series |
Magnetic Resonance |
| issn |
2699-0016 |
| publishDate |
2020-06-01 |
| description |
<p>The use of spherical rotors for magic angle spinning offers a number of advantages, including improved sample exchange, efficient microwave coupling for dynamic nuclear polarization nuclear magnetic resonance (NMR) experiments, and, most significantly, high frequency and stable spinning with minimal risk of rotor crash. Here we demonstrate the simple retrofitting of a commercial NMR probe with MAS spheres for solid-state NMR. We analyze a series of turbine groove geometries to investigate the importance of the rotor surface for spinning performance. Of note, rotors lacking any surface modification spin rapidly and stably even without feedback control. The high stability of a spherical rotor about the magic angle is shown to be dependent on its inertia tensor rather than the presence of turbine grooves.</p> |
| url |
https://mr.copernicus.org/articles/1/97/2020/mr-1-97-2020.pdf |
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