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Accurate mass measurements of $^{26}$Ne, $^{26-30}$Na, $^{29-33}$Mg performed with the MISTRAL spectrometer
The minuteness of the nuclear binding energy requires that mass measurements be highly precise and accurate. Here we report on new measurements $^{29-33}$Mg and $^{26}$Na performed with the Mistral mass spectrometer at CERN's Isolde facility. Since mass measurements are prone to systematic erro...
| Autores principales: | , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2005
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/j.nuclphysa.2005.12.007 http://cds.cern.ch/record/903759 |
| _version_ | 1780908734383390720 |
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| author | Gaulard, C. Audi, G. Bachelet, C. Lunney, D. de Saint Simon, M. Thibault, C. Vieira, N. |
| author_facet | Gaulard, C. Audi, G. Bachelet, C. Lunney, D. de Saint Simon, M. Thibault, C. Vieira, N. |
| author_sort | Gaulard, C. |
| collection | CERN |
| description | The minuteness of the nuclear binding energy requires that mass measurements be highly precise and accurate. Here we report on new measurements $^{29-33}$Mg and $^{26}$Na performed with the Mistral mass spectrometer at CERN's Isolde facility. Since mass measurements are prone to systematic errors, considerable effort has been devoted to their evaluation and elimination in order to achieve accuracy and not only precision. We have therefore conducted a campaign of measurements for calibration and error evaluation. As a result, we now have a satisfactory description of the Mistral calibration laws and error budget. We have applied our new understanding to previous measurements of $^{26}$Ne, $^{26-30}$Na and $^{29,32}$Mg for which re-evaluated values are reported. |
| id | cern-903759 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2005 |
| record_format | invenio |
| spelling | cern-9037592019-09-30T06:29:59Zdoi:10.1016/j.nuclphysa.2005.12.007http://cds.cern.ch/record/903759engGaulard, C.Audi, G.Bachelet, C.Lunney, D.de Saint Simon, M.Thibault, C.Vieira, N.Accurate mass measurements of $^{26}$Ne, $^{26-30}$Na, $^{29-33}$Mg performed with the MISTRAL spectrometerNuclear Physics - ExperimentThe minuteness of the nuclear binding energy requires that mass measurements be highly precise and accurate. Here we report on new measurements $^{29-33}$Mg and $^{26}$Na performed with the Mistral mass spectrometer at CERN's Isolde facility. Since mass measurements are prone to systematic errors, considerable effort has been devoted to their evaluation and elimination in order to achieve accuracy and not only precision. We have therefore conducted a campaign of measurements for calibration and error evaluation. As a result, we now have a satisfactory description of the Mistral calibration laws and error budget. We have applied our new understanding to previous measurements of $^{26}$Ne, $^{26-30}$Na and $^{29,32}$Mg for which re-evaluated values are reported.The minuteness of the nuclear binding energy requires that mass measurements be highly precise and accurate. Here we report on new measurements $^{29-33}$Mg and $^{26}$Na performed with the {\sc Mistral} mass spectrometer at {\sc Cern}'s {\sc Isolde} facility. Since mass measurements are prone to systematic errors, considerable effort has been devoted to their evaluation and elimination in order to achieve accuracy and not only precision. We have therefore conducted a campaign of measurements for calibration and error evaluation. As a result, we now have a satisfactory description of the {\sc Mistral} calibration laws and error budget. We have applied our new understanding to previous measurements of $^{26}$Ne, $^{26-30}$Na and $^{29,32}$Mg for which re-evaluated values are reported.The minuteness of the nuclear binding energy requires that mass measurements be highly precise and accurate. Here we report on new measurements $^{29-33}$Mg and $^{26}$Na performed with the {\sc Mistral} mass spectrometer at {\sc Cern}'s {\sc Isolde} facility. Since mass measurements are prone to systematic errors, considerable effort has been devoted to their evaluation and elimination in order to achieve accuracy and not only precision. We have therefore conducted a campaign of measurements for calibration and error evaluation. As a result, we now have a satisfactory description of the {\sc Mistral} calibration laws and error budget. We have applied our new understanding to previous measurements of $^{26}$Ne, $^{26-30}$Na and $^{29,32}$Mg for which re-evaluated values are reported.The minuteness of the nuclear binding energy requires that mass measurements be highly precise and accurate. Here we report on new measurements $^{29-33}$Mg and $^{26}$Na performed with the {\sc Mistral} mass spectrometer at {\sc Cern}'s {\sc Isolde} facility. Since mass measurements are prone to systematic errors, considerable effort has been devoted to their evaluation and elimination in order to achieve accuracy and not only precision. We have therefore conducted a campaign of measurements for calibration and error evaluation. As a result, we now have a satisfactory description of the {\sc Mistral} calibration laws and error budget. We have applied our new understanding to previous measurements of $^{26}$Ne, $^{26-30}$Na and $^{29,32}$Mg for which re-evaluated values are reported.The minuteness of the nuclear binding energy requires that mass measurements be highly precise and accurate. Here we report on new measurements $^{29-33}$Mg and $^{26}$Na performed with the {\sc Mistral} mass spectrometer at {\sc Cern}'s {\sc Isolde} facility. Since mass measurements are prone to systematic errors, considerable effort has been devoted to their evaluation and elimination in order to achieve accuracy and not only precision. We have therefore conducted a campaign of measurements for calibration and error evaluation. As a result, we now have a satisfactory description of the {\sc Mistral} calibration laws and error budget. We have applied our new understanding to previous measurements of $^{26}$Ne, $^{26-30}$Na and $^{29,32}$Mg for which re-evaluated values are reported.The minuteness of the nuclear binding energy requires that mass measurements be highly precise and accurate. Here we report on new measurements $^{29-33}$Mg and $^{26}$Na performed with the {\sc Mistral} mass spectrometer at {\sc Cern}'s {\sc Isolde} facility. Since mass measurements are prone to systematic errors, considerable effort has been devoted to their evaluation and elimination in order to achieve accuracy and not only precision. We have therefore conducted a campaign of measurements for calibration and error evaluation. As a result, we now have a satisfactory description of the {\sc Mistral} calibration laws and error budget. We have applied our new understanding to previous measurements of $^{26}$Ne, $^{26-30}$Na and $^{29,32}$Mg for which re-evaluated values are reported.The minuteness of the nuclear binding energy requires that mass measurements be highly precise and accurate. Here we report on new measurements of 29−33 Mg and 26 Na performed with the Mistral mass spectrometer at CERN's Isolde facility. Since mass measurements are prone to systematic errors, considerable effort has been devoted to their evaluation and elimination in order to achieve accuracy and not only precision. We have therefore conducted a campaign of measurements for calibration and error evaluation. As a result, we now have a satisfactory description of the Mistral calibration laws and error budget. We have applied our new understanding to previous measurements of 26 Ne, 26–30 Na and 29,32 Mg for which re-evaluated values are reported.nucl-ex/0511007oai:cds.cern.ch:9037592005 |
| spellingShingle | Nuclear Physics - Experiment Gaulard, C. Audi, G. Bachelet, C. Lunney, D. de Saint Simon, M. Thibault, C. Vieira, N. Accurate mass measurements of $^{26}$Ne, $^{26-30}$Na, $^{29-33}$Mg performed with the MISTRAL spectrometer |
| title | Accurate mass measurements of $^{26}$Ne, $^{26-30}$Na, $^{29-33}$Mg performed with the MISTRAL spectrometer |
| title_full | Accurate mass measurements of $^{26}$Ne, $^{26-30}$Na, $^{29-33}$Mg performed with the MISTRAL spectrometer |
| title_fullStr | Accurate mass measurements of $^{26}$Ne, $^{26-30}$Na, $^{29-33}$Mg performed with the MISTRAL spectrometer |
| title_full_unstemmed | Accurate mass measurements of $^{26}$Ne, $^{26-30}$Na, $^{29-33}$Mg performed with the MISTRAL spectrometer |
| title_short | Accurate mass measurements of $^{26}$Ne, $^{26-30}$Na, $^{29-33}$Mg performed with the MISTRAL spectrometer |
| title_sort | accurate mass measurements of $^{26}$ne, $^{26-30}$na, $^{29-33}$mg performed with the mistral spectrometer |
| topic | Nuclear Physics - Experiment |
| url | https://dx.doi.org/10.1016/j.nuclphysa.2005.12.007 http://cds.cern.ch/record/903759 |
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