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Scalable haloscopes for axion dark matter detection in the 30$\mu$eV range with RADES
RADES (Relic Axion Detector Exploratory Setup) is a project with the goal of directly searching for axion dark matter above the 30μeV scale employing custom-made microwave filters in magnetic dipole fields. Currently RADES is taking data at the LHC dipole of the CAST experiment. In the long term, th...
| Autores principales: | , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2020
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1007/JHEP07(2020)084 http://cds.cern.ch/record/2712224 |
| _version_ | 1780965272106041344 |
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| author | Álvarez Melcón, A. Arguedas Cuendis, S. Cogollos, C. Díaz-Morcillo, A. Döbrich, B. Gallego, J.D. García Barceló, J.M. Gimeno, B. Golm, J. Irastorza, I.G. Lozano-Guerrero, A.J. Malbrunot, C. Millar, A. Navarro, P. Peña Garay, C. Redondo, J. Wuensch, W. |
| author_facet | Álvarez Melcón, A. Arguedas Cuendis, S. Cogollos, C. Díaz-Morcillo, A. Döbrich, B. Gallego, J.D. García Barceló, J.M. Gimeno, B. Golm, J. Irastorza, I.G. Lozano-Guerrero, A.J. Malbrunot, C. Millar, A. Navarro, P. Peña Garay, C. Redondo, J. Wuensch, W. |
| author_sort | Álvarez Melcón, A. |
| collection | CERN |
| description | RADES (Relic Axion Detector Exploratory Setup) is a project with the goal of directly searching for axion dark matter above the 30μeV scale employing custom-made microwave filters in magnetic dipole fields. Currently RADES is taking data at the LHC dipole of the CAST experiment. In the long term, the RADES cavities are envisioned to take data in the BabyIAXO magnet. In this article we report on the modelling, building and characterisation of an optimised microwave-filter design with alternating irises that exploits maximal coupling to axions while being scalable in length without suffering from mode-mixing. We develop the mathematical formalism and theoretical study which justifies the performance of the chosen design. We also point towards the applicability of this formalism to optimise the MADMAX dielectric haloscopes. |
| id | cern-2712224 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2020 |
| record_format | invenio |
| spelling | cern-27122242023-02-10T03:55:59Zdoi:10.1007/JHEP07(2020)084http://cds.cern.ch/record/2712224engÁlvarez Melcón, A.Arguedas Cuendis, S.Cogollos, C.Díaz-Morcillo, A.Döbrich, B.Gallego, J.D.García Barceló, J.M.Gimeno, B.Golm, J.Irastorza, I.G.Lozano-Guerrero, A.J.Malbrunot, C.Millar, A.Navarro, P.Peña Garay, C.Redondo, J.Wuensch, W.Scalable haloscopes for axion dark matter detection in the 30$\mu$eV range with RADEShep-phParticle Physics - Phenomenologyhep-exParticle Physics - ExperimentRADES (Relic Axion Detector Exploratory Setup) is a project with the goal of directly searching for axion dark matter above the 30μeV scale employing custom-made microwave filters in magnetic dipole fields. Currently RADES is taking data at the LHC dipole of the CAST experiment. In the long term, the RADES cavities are envisioned to take data in the BabyIAXO magnet. In this article we report on the modelling, building and characterisation of an optimised microwave-filter design with alternating irises that exploits maximal coupling to axions while being scalable in length without suffering from mode-mixing. We develop the mathematical formalism and theoretical study which justifies the performance of the chosen design. We also point towards the applicability of this formalism to optimise the MADMAX dielectric haloscopes.RADES (Relic Axion Detector Exploratory Setup) is a project with the goal of directly searching for axion dark matter above the $30 \mu$eV scale employing custom-made microwave filters in magnetic dipole fields. Currently RADES is taking data at the LHC dipole of the CAST experiment. In the long term, the RADES cavities are envisioned to take data in the (baby)-IAXO magnet. In this article we report on the modelling, building and characterisation of an optimised microwave-filter design with alternating irises that exploits maximal coupling to axions while being scalable in length without suffering from mode-mixing. We develop the mathematical formalism and theoretical study which justifies the performance of the chosen design. We also point towards the applicability of this formalism to optimise the MADMAX dielectric haloscopes.arXiv:2002.07639NORDITA-2020-010oai:cds.cern.ch:27122242020 |
| spellingShingle | hep-ph Particle Physics - Phenomenology hep-ex Particle Physics - Experiment Álvarez Melcón, A. Arguedas Cuendis, S. Cogollos, C. Díaz-Morcillo, A. Döbrich, B. Gallego, J.D. García Barceló, J.M. Gimeno, B. Golm, J. Irastorza, I.G. Lozano-Guerrero, A.J. Malbrunot, C. Millar, A. Navarro, P. Peña Garay, C. Redondo, J. Wuensch, W. Scalable haloscopes for axion dark matter detection in the 30$\mu$eV range with RADES |
| title | Scalable haloscopes for axion dark matter detection in the 30$\mu$eV range with RADES |
| title_full | Scalable haloscopes for axion dark matter detection in the 30$\mu$eV range with RADES |
| title_fullStr | Scalable haloscopes for axion dark matter detection in the 30$\mu$eV range with RADES |
| title_full_unstemmed | Scalable haloscopes for axion dark matter detection in the 30$\mu$eV range with RADES |
| title_short | Scalable haloscopes for axion dark matter detection in the 30$\mu$eV range with RADES |
| title_sort | scalable haloscopes for axion dark matter detection in the 30$\mu$ev range with rades |
| topic | hep-ph Particle Physics - Phenomenology hep-ex Particle Physics - Experiment |
| url | https://dx.doi.org/10.1007/JHEP07(2020)084 http://cds.cern.ch/record/2712224 |
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