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Time-of-Flight study of molecular beams extracted from the ISOLDE RFQ cooler and buncher
Molecular beams injected into the ISOLDE Radio-Frequency Quadrupole cooler and buncher (RFQcb), ISCOOL, have been studied under varying conditions using a new Time-of-Flight (ToF) detector. When a beam of molecules is injected into the RFQcb and interacts with the buffer gas, collisional dissociatio...
| Autores principales: | , , , , , |
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| Publicado: |
2020
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| Acceso en línea: | https://dx.doi.org/10.1016/j.nimb.2019.03.014 http://cds.cern.ch/record/2674386 |
| _version_ | 1780962566880624640 |
|---|---|
| author | Ringvall Moberg, A. Warren, S. Muñoz Pequeño, C. Cruikshank, J. Giles, T. Hanstorp, D. |
| author_facet | Ringvall Moberg, A. Warren, S. Muñoz Pequeño, C. Cruikshank, J. Giles, T. Hanstorp, D. |
| author_sort | Ringvall Moberg, A. |
| collection | CERN |
| description | Molecular beams injected into the ISOLDE Radio-Frequency Quadrupole cooler and buncher (RFQcb), ISCOOL, have been studied under varying conditions using a new Time-of-Flight (ToF) detector. When a beam of molecules is injected into the RFQcb and interacts with the buffer gas, collisional dissociation processes may occur. In this study, two different beams of molecules, CO$^{+}$ and N$_{2}^{+}$, were separately injected into ISCOOL, and two different buffer gases (pure helium or a 90:10 mixture of helium and neon) were used. The radio-frequency of the RFQcb was varied as the molecules, along with the fragments from the dissociation processes, were extracted from ISCOOL and studied using the new Time-of-Flight detector. The main finding of this work is that the rates for molecular dissociation within ISCOOL were very small for both CO$^{+}$ and N$_{2}^{+}$, with the largest rates found for CO$^{+}$. |
| id | cern-2674386 |
| institution | Organización Europea para la Investigación Nuclear |
| publishDate | 2020 |
| record_format | invenio |
| spelling | cern-26743862022-01-14T14:57:24Zdoi:10.1016/j.nimb.2019.03.014http://cds.cern.ch/record/2674386Ringvall Moberg, A.Warren, S.Muñoz Pequeño, C.Cruikshank, J.Giles, T.Hanstorp, D.Time-of-Flight study of molecular beams extracted from the ISOLDE RFQ cooler and buncherMolecular beams injected into the ISOLDE Radio-Frequency Quadrupole cooler and buncher (RFQcb), ISCOOL, have been studied under varying conditions using a new Time-of-Flight (ToF) detector. When a beam of molecules is injected into the RFQcb and interacts with the buffer gas, collisional dissociation processes may occur. In this study, two different beams of molecules, CO$^{+}$ and N$_{2}^{+}$, were separately injected into ISCOOL, and two different buffer gases (pure helium or a 90:10 mixture of helium and neon) were used. The radio-frequency of the RFQcb was varied as the molecules, along with the fragments from the dissociation processes, were extracted from ISCOOL and studied using the new Time-of-Flight detector. The main finding of this work is that the rates for molecular dissociation within ISCOOL were very small for both CO$^{+}$ and N$_{2}^{+}$, with the largest rates found for CO$^{+}$.oai:cds.cern.ch:26743862020 |
| spellingShingle | Ringvall Moberg, A. Warren, S. Muñoz Pequeño, C. Cruikshank, J. Giles, T. Hanstorp, D. Time-of-Flight study of molecular beams extracted from the ISOLDE RFQ cooler and buncher |
| title | Time-of-Flight study of molecular beams extracted from the ISOLDE RFQ cooler and buncher |
| title_full | Time-of-Flight study of molecular beams extracted from the ISOLDE RFQ cooler and buncher |
| title_fullStr | Time-of-Flight study of molecular beams extracted from the ISOLDE RFQ cooler and buncher |
| title_full_unstemmed | Time-of-Flight study of molecular beams extracted from the ISOLDE RFQ cooler and buncher |
| title_short | Time-of-Flight study of molecular beams extracted from the ISOLDE RFQ cooler and buncher |
| title_sort | time-of-flight study of molecular beams extracted from the isolde rfq cooler and buncher |
| url | https://dx.doi.org/10.1016/j.nimb.2019.03.014 http://cds.cern.ch/record/2674386 |
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