We propose an approach to search for axion dark matter with a specially designed superconducting radio frequency cavity, targeting axions with masses ma ≲ 10−6 eV. Our approach exploits axion-induced transitions between nearly degenerate resonant modes of frequency ∼ GHz. A scan over axion mass is achieved by varying the frequency splitting between the two modes. Compared to traditional approaches, this allows for parametrically enhanced signal power for axions lighter than a GHz. The projected sensitivity covers unexplored parameter space for QCD axion dark matter for 10−8 eV ≲ ma ≲ 10−6 eV and axion-like particle dark matter as light as ma∼ 10−14 eV.
Axion dark matter detection by superconducting resonant frequency conversion
D'Agnolo, Raffaele Tito;
2020
Abstract
We propose an approach to search for axion dark matter with a specially designed superconducting radio frequency cavity, targeting axions with masses ma ≲ 10−6 eV. Our approach exploits axion-induced transitions between nearly degenerate resonant modes of frequency ∼ GHz. A scan over axion mass is achieved by varying the frequency splitting between the two modes. Compared to traditional approaches, this allows for parametrically enhanced signal power for axions lighter than a GHz. The projected sensitivity covers unexplored parameter space for QCD axion dark matter for 10−8 eV ≲ ma ≲ 10−6 eV and axion-like particle dark matter as light as ma∼ 10−14 eV.| File | Dimensione | Formato | |
|---|---|---|---|
|
JHEP07(2020)088.pdf
accesso aperto
Tipologia:
Published version
Licenza:
Creative Commons
Dimensione
2.47 MB
Formato
Adobe PDF
|
2.47 MB | Adobe PDF |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
