A dc SQUID operated at the flux sweet spot with lock-in modulation yields an ultra-broadband axion search with projected sensitivity |g_aγγ| ≳ 10^{-16} GeV^{-1} across 15 orders of magnitude in mass.
Superconducting quantum interference device instruments and applications
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Nanogap patterning on NbTi thin-film resonators decreases TC by 1.5 K and raises dfres/dT to 62 MHz/K at 4.2 K, enhancing cryogenic thermometry sensitivity by 10x.
A surface ion trap design with multiple trapping regions enables high-sensitivity magnetic field mapping and gradiometry using trapped ions.
citing papers explorer
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An ultra-broadband axion dark matter experiment
A dc SQUID operated at the flux sweet spot with lock-in modulation yields an ultra-broadband axion search with projected sensitivity |g_aγγ| ≳ 10^{-16} GeV^{-1} across 15 orders of magnitude in mass.
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Surface nanostructuring of NbTi superconducting thin-film resonators for enhanced cryogenic thermometry
Nanogap patterning on NbTi thin-film resonators decreases TC by 1.5 K and raises dfres/dT to 62 MHz/K at 4.2 K, enhancing cryogenic thermometry sensitivity by 10x.
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Scalable surface ion trap design for magnetic quantum sensing and gradiometry
A surface ion trap design with multiple trapping regions enables high-sensitivity magnetic field mapping and gradiometry using trapped ions.