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Magnetic Moments of Short-Lived Nuclei with Part-per-Million Accuracy: Toward Novel Applications of $\beta$-Detected NMR in Physics, Chemistry, and Biology
We determine for the first time the magnetic dipole moment of a short-lived nucleus with part-per-million (ppm) accuracy. To achieve this 2-orders-of-magnitude improvement over previous studies, we implement a number of innovations into our β-detected nuclear magnetic resonance (β-NMR) setup at ISOL...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2020
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1103/PhysRevX.10.041061 http://cds.cern.ch/record/2749993 |
| _version_ | 1780969082114277376 |
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| author | Harding, R.D. Pallada, S. Croese, J. Antušek, A. Baranowski, M. Bissell, M.L. Cerato, L. Dziubinska-Kühn, K.M. Gins, W. Gustafsson, F.P. Javaji, A. Jolivet, R.B. Kanellakopoulos, A. Karg, B. Kempka, M. Kozak, M. Kulesz, K. Madurga Flores, M. Neyens, G. Kocman, V. Pomorski, M. Skrzypczak, A. Wagenknecht, P. Wienholtz, F. Pietrzyk, R. Zakoucky, D. Kowalska, M. Plavec, J. Wolak, J. Xu, Z. |
| author_facet | Harding, R.D. Pallada, S. Croese, J. Antušek, A. Baranowski, M. Bissell, M.L. Cerato, L. Dziubinska-Kühn, K.M. Gins, W. Gustafsson, F.P. Javaji, A. Jolivet, R.B. Kanellakopoulos, A. Karg, B. Kempka, M. Kozak, M. Kulesz, K. Madurga Flores, M. Neyens, G. Kocman, V. Pomorski, M. Skrzypczak, A. Wagenknecht, P. Wienholtz, F. Pietrzyk, R. Zakoucky, D. Kowalska, M. Plavec, J. Wolak, J. Xu, Z. |
| author_sort | Harding, R.D. |
| collection | CERN |
| description | We determine for the first time the magnetic dipole moment of a short-lived nucleus with part-per-million (ppm) accuracy. To achieve this 2-orders-of-magnitude improvement over previous studies, we implement a number of innovations into our β-detected nuclear magnetic resonance (β-NMR) setup at ISOLDE at CERN. Using liquid samples as hosts, we obtain narrow, subkilohertz-linewidth, resonances, while a simultaneous in situ H1 NMR measurement allows us to calibrate and stabilize the magnetic field to ppm precision, thus eliminating the need for additional β-NMR reference measurements. Furthermore, we use ab initio calculations of NMR shielding constants to improve the accuracy of the reference magnetic moment, thus removing a large systematic error. We demonstrate the potential of this combined approach with the 1.1 s half-life radioactive nucleus Na26, which is relevant for biochemical studies. Our technique can be readily extended to other isotopic chains, providing accurate magnetic moments for many short-lived nuclei. Furthermore, we discuss how our approach can open the path toward a wide range of applications of the ultrasensitive β-NMR in physics, chemistry, and biology. |
| id | cern-2749993 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2020 |
| record_format | invenio |
| spelling | cern-27499932023-09-27T07:57:32Zdoi:10.1103/PhysRevX.10.041061http://cds.cern.ch/record/2749993engHarding, R.D.Pallada, S.Croese, J.Antušek, A.Baranowski, M.Bissell, M.L.Cerato, L.Dziubinska-Kühn, K.M.Gins, W.Gustafsson, F.P.Javaji, A.Jolivet, R.B.Kanellakopoulos, A.Karg, B.Kempka, M.Kozak, M.Kulesz, K.Madurga Flores, M.Neyens, G.Kocman, V.Pomorski, M.Skrzypczak, A.Wagenknecht, P.Wienholtz, F.Pietrzyk, R.Zakoucky, D.Kowalska, M.Plavec, J.Wolak, J.Xu, Z.Magnetic Moments of Short-Lived Nuclei with Part-per-Million Accuracy: Toward Novel Applications of $\beta$-Detected NMR in Physics, Chemistry, and Biologynucl-exNuclear Physics - Experimentphysics.chem-phChemical Physics and ChemistryWe determine for the first time the magnetic dipole moment of a short-lived nucleus with part-per-million (ppm) accuracy. To achieve this 2-orders-of-magnitude improvement over previous studies, we implement a number of innovations into our β-detected nuclear magnetic resonance (β-NMR) setup at ISOLDE at CERN. Using liquid samples as hosts, we obtain narrow, subkilohertz-linewidth, resonances, while a simultaneous in situ H1 NMR measurement allows us to calibrate and stabilize the magnetic field to ppm precision, thus eliminating the need for additional β-NMR reference measurements. Furthermore, we use ab initio calculations of NMR shielding constants to improve the accuracy of the reference magnetic moment, thus removing a large systematic error. We demonstrate the potential of this combined approach with the 1.1 s half-life radioactive nucleus Na26, which is relevant for biochemical studies. Our technique can be readily extended to other isotopic chains, providing accurate magnetic moments for many short-lived nuclei. Furthermore, we discuss how our approach can open the path toward a wide range of applications of the ultrasensitive β-NMR in physics, chemistry, and biology.We determine for the first time the magnetic dipole moment of a short-lived nucleus with part-per-million (ppm) accuracy. To achieve this two orders of magnitude improvement over previous studies, we implement a number of innovations into our $\beta$-detected Nuclear Magnetic Resonance ($\beta$-NMR) setup at ISOLDE/CERN. Using liquid samples as hosts we obtain narrow, sub-kHz linewidth, resonances, while a simultaneous in-situ $^1$H NMR measurement allows us to calibrate and stabilize the magnetic field to ppm precision, thus eliminating the need for additional $\beta$-NMR reference measurements. Furthermore, we use ab initio calculations of NMR shielding constants to improve the accuracy of the reference magnetic moment, thus removing a large systematic error. We demonstrate the potential of this combined approach with the 1.1 s half-life radioactive nucleus $^{26}$Na, which is relevant for biochemical studies. Our technique can be readily extended to other isotopic chains, providing accurate magnetic moments for many short-lived nuclei. Furthermore, we discuss how our approach can open the path towards a wide range of applications of the ultra-sensitive $\beta$-NMR in physics, chemistry, and biology.arXiv:2004.02820oai:cds.cern.ch:27499932020-04-06 |
| spellingShingle | nucl-ex Nuclear Physics - Experiment physics.chem-ph Chemical Physics and Chemistry Harding, R.D. Pallada, S. Croese, J. Antušek, A. Baranowski, M. Bissell, M.L. Cerato, L. Dziubinska-Kühn, K.M. Gins, W. Gustafsson, F.P. Javaji, A. Jolivet, R.B. Kanellakopoulos, A. Karg, B. Kempka, M. Kozak, M. Kulesz, K. Madurga Flores, M. Neyens, G. Kocman, V. Pomorski, M. Skrzypczak, A. Wagenknecht, P. Wienholtz, F. Pietrzyk, R. Zakoucky, D. Kowalska, M. Plavec, J. Wolak, J. Xu, Z. Magnetic Moments of Short-Lived Nuclei with Part-per-Million Accuracy: Toward Novel Applications of $\beta$-Detected NMR in Physics, Chemistry, and Biology |
| title | Magnetic Moments of Short-Lived Nuclei with Part-per-Million Accuracy: Toward Novel Applications of $\beta$-Detected NMR in Physics, Chemistry, and Biology |
| title_full | Magnetic Moments of Short-Lived Nuclei with Part-per-Million Accuracy: Toward Novel Applications of $\beta$-Detected NMR in Physics, Chemistry, and Biology |
| title_fullStr | Magnetic Moments of Short-Lived Nuclei with Part-per-Million Accuracy: Toward Novel Applications of $\beta$-Detected NMR in Physics, Chemistry, and Biology |
| title_full_unstemmed | Magnetic Moments of Short-Lived Nuclei with Part-per-Million Accuracy: Toward Novel Applications of $\beta$-Detected NMR in Physics, Chemistry, and Biology |
| title_short | Magnetic Moments of Short-Lived Nuclei with Part-per-Million Accuracy: Toward Novel Applications of $\beta$-Detected NMR in Physics, Chemistry, and Biology |
| title_sort | magnetic moments of short-lived nuclei with part-per-million accuracy: toward novel applications of $\beta$-detected nmr in physics, chemistry, and biology |
| topic | nucl-ex Nuclear Physics - Experiment physics.chem-ph Chemical Physics and Chemistry |
| url | https://dx.doi.org/10.1103/PhysRevX.10.041061 http://cds.cern.ch/record/2749993 |
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