Enhancing resonant circular-section haloscopes for dark matter axion detection: approaches and limitations in volume expansion
Abstract Haloscopes, microwave resonant cavities utilized in detecting dark matter axions within powerful static magnetic fields, are pivotal in modern astrophysical research. This paper delves into the realm of cylindrical geometries, investigating techniques to augment volume and enhance compatibi...
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Format: | Article |
Language: | English |
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SpringerOpen
2023-11-01
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Series: | Journal of High Energy Physics |
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Online Access: | https://doi.org/10.1007/JHEP11(2023)159 |
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author | J. M. García-Barceló A. Díaz-Morcillo B. Gimeno |
author_facet | J. M. García-Barceló A. Díaz-Morcillo B. Gimeno |
author_sort | J. M. García-Barceló |
collection | DOAJ |
description | Abstract Haloscopes, microwave resonant cavities utilized in detecting dark matter axions within powerful static magnetic fields, are pivotal in modern astrophysical research. This paper delves into the realm of cylindrical geometries, investigating techniques to augment volume and enhance compatibility with dipole or solenoid magnets. The study explores volume constraints in two categories of haloscope designs: those reliant on single cavities and those employing multicavities. In both categories, strategies to increase the expanse of elongated structures are elucidated. For multicavities, the optimization of space within magnets is explored through 1D configurations. Three subcavity stacking approaches are investigated, while the foray into 2D and 3D geometries lays the groundwork for future topological developments. The results underscore the efficacy of these methods, revealing substantial room for progress in cylindrical haloscope design. Notably, an elongated single cavity design attains a three-order magnitude increase in volume compared to a WC-109 standard waveguide-based single cavity. Diverse prototypes featuring single cavities, 1D, 2D, and 3D multicavities highlight the feasibility of leveraging these geometries to magnify the volume of tangible haloscope implementations. |
first_indexed | 2024-03-09T15:32:31Z |
format | Article |
id | doaj.art-c43a17643e0444ada6ce10561d785ceb |
institution | Directory Open Access Journal |
issn | 1029-8479 |
language | English |
last_indexed | 2024-04-24T07:20:04Z |
publishDate | 2023-11-01 |
publisher | SpringerOpen |
record_format | Article |
series | Journal of High Energy Physics |
spelling | doaj.art-c43a17643e0444ada6ce10561d785ceb2024-04-21T11:06:09ZengSpringerOpenJournal of High Energy Physics1029-84792023-11-0120231113010.1007/JHEP11(2023)159Enhancing resonant circular-section haloscopes for dark matter axion detection: approaches and limitations in volume expansionJ. M. García-Barceló0A. Díaz-Morcillo1B. Gimeno2Max-Planck-Institut für Physik (Werner-Heisenberg-Institut)Department of Information Technologies and Communications, Universidad Politécnica de CartagenaInstituto de Física Corpuscular (IFIC), CSIC-University of ValenciaAbstract Haloscopes, microwave resonant cavities utilized in detecting dark matter axions within powerful static magnetic fields, are pivotal in modern astrophysical research. This paper delves into the realm of cylindrical geometries, investigating techniques to augment volume and enhance compatibility with dipole or solenoid magnets. The study explores volume constraints in two categories of haloscope designs: those reliant on single cavities and those employing multicavities. In both categories, strategies to increase the expanse of elongated structures are elucidated. For multicavities, the optimization of space within magnets is explored through 1D configurations. Three subcavity stacking approaches are investigated, while the foray into 2D and 3D geometries lays the groundwork for future topological developments. The results underscore the efficacy of these methods, revealing substantial room for progress in cylindrical haloscope design. Notably, an elongated single cavity design attains a three-order magnitude increase in volume compared to a WC-109 standard waveguide-based single cavity. Diverse prototypes featuring single cavities, 1D, 2D, and 3D multicavities highlight the feasibility of leveraging these geometries to magnify the volume of tangible haloscope implementations.https://doi.org/10.1007/JHEP11(2023)159Axions and ALPsParticle Nature of Dark Matter |
spellingShingle | J. M. García-Barceló A. Díaz-Morcillo B. Gimeno Enhancing resonant circular-section haloscopes for dark matter axion detection: approaches and limitations in volume expansion Journal of High Energy Physics Axions and ALPs Particle Nature of Dark Matter |
title | Enhancing resonant circular-section haloscopes for dark matter axion detection: approaches and limitations in volume expansion |
title_full | Enhancing resonant circular-section haloscopes for dark matter axion detection: approaches and limitations in volume expansion |
title_fullStr | Enhancing resonant circular-section haloscopes for dark matter axion detection: approaches and limitations in volume expansion |
title_full_unstemmed | Enhancing resonant circular-section haloscopes for dark matter axion detection: approaches and limitations in volume expansion |
title_short | Enhancing resonant circular-section haloscopes for dark matter axion detection: approaches and limitations in volume expansion |
title_sort | enhancing resonant circular section haloscopes for dark matter axion detection approaches and limitations in volume expansion |
topic | Axions and ALPs Particle Nature of Dark Matter |
url | https://doi.org/10.1007/JHEP11(2023)159 |
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