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Bulk magnetic susceptibility corrections for precise resonance frequency ratios

The main aim of this CERN Summer Student Programme project was to calculate the influence of the magnetic susceptibility of liquids and quartz on the magnetic field at the site of NMR tubes used at the VITO setup at ISOLDE. Simulations for NMR tubes with two different samples were performed: water a...

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Autor principal: Znava, Martin
Lenguaje:eng
Publicado: 2023
Materias:
Acceso en línea:http://cds.cern.ch/record/2868489
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author Znava, Martin
author_facet Znava, Martin
author_sort Znava, Martin
collection CERN
description The main aim of this CERN Summer Student Programme project was to calculate the influence of the magnetic susceptibility of liquids and quartz on the magnetic field at the site of NMR tubes used at the VITO setup at ISOLDE. Simulations for NMR tubes with two different samples were performed: water and ionic liquid EMIM-DCA (1-ethyl-3-methyl-imidazolium dicyanamide). The calculated magnetic field values in samples parallel and perpendicular to the magnetic field were used to obtain the magnetic field shift, σχ. Using these values, the measured resonance frequency ratios of 23Na+ and 26Na+ in EMIM-DCA and deuterons in D2O at CERN (23Na+ and 26Na+) and UNIGE (University of Geneva) (only 23Na+) will be corrected, with the aim to determine accurate magnetic moment of 23Na and unstable 26Na.
id cern-2868489
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2023
record_format invenio
spelling cern-28684892023-08-25T20:29:08Zhttp://cds.cern.ch/record/2868489engZnava, MartinBulk magnetic susceptibility corrections for precise resonance frequency ratiosChemical Physics and ChemistryThe main aim of this CERN Summer Student Programme project was to calculate the influence of the magnetic susceptibility of liquids and quartz on the magnetic field at the site of NMR tubes used at the VITO setup at ISOLDE. Simulations for NMR tubes with two different samples were performed: water and ionic liquid EMIM-DCA (1-ethyl-3-methyl-imidazolium dicyanamide). The calculated magnetic field values in samples parallel and perpendicular to the magnetic field were used to obtain the magnetic field shift, σχ. Using these values, the measured resonance frequency ratios of 23Na+ and 26Na+ in EMIM-DCA and deuterons in D2O at CERN (23Na+ and 26Na+) and UNIGE (University of Geneva) (only 23Na+) will be corrected, with the aim to determine accurate magnetic moment of 23Na and unstable 26Na.CERN-STUDENTS-Note-2023-080oai:cds.cern.ch:28684892023-08-25
spellingShingle Chemical Physics and Chemistry
Znava, Martin
Bulk magnetic susceptibility corrections for precise resonance frequency ratios
title Bulk magnetic susceptibility corrections for precise resonance frequency ratios
title_full Bulk magnetic susceptibility corrections for precise resonance frequency ratios
title_fullStr Bulk magnetic susceptibility corrections for precise resonance frequency ratios
title_full_unstemmed Bulk magnetic susceptibility corrections for precise resonance frequency ratios
title_short Bulk magnetic susceptibility corrections for precise resonance frequency ratios
title_sort bulk magnetic susceptibility corrections for precise resonance frequency ratios
topic Chemical Physics and Chemistry
url http://cds.cern.ch/record/2868489
work_keys_str_mv AT znavamartin bulkmagneticsusceptibilitycorrectionsforpreciseresonancefrequencyratios