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Scientific article
Open access
English

Detecting high-frequency gravitational waves with microwave cavities

Published inPhysical review. D, vol. 105, no. 11, 116011
Publication date2022
First online date2022-06-17
Abstract

We give a detailed treatment of electromagnetic signals generated by gravitational waves (GWs) in resonant cavity experiments. Our investigation corrects and builds upon previous studies by carefully accounting for the gauge dependence of relevant quantities. We work in a preferred frame for the laboratory, the proper detector frame, and show how to resum short-wavelength effects to provide analytic results that are exact for GWs of arbitrary wavelength. This formalism allows us to firmly establish that, contrary to previous claims, cavity experiments designed for the detection of axion dark matter only need to reanalyze existing data to search for high-frequency GWs with strains as small as h∼10-22–10-21. We also argue that directional detection is possible in principle using readout of multiple cavity modes. Further improvements in sensitivity are expected with cutting-edge advances in superconducting cavity technology.

eng
Keywords
  • Axion: dark matter
  • Cavity: superconductivity
  • Cavity: microwaves
  • Resonance: cavity
  • Gravitational radiation
  • Electromagnetic
  • Sensitivity
  • Gauge dependence
  • Readout
  • Dark matter: direct detection
Citation (ISO format)
BERLIN, Asher et al. Detecting high-frequency gravitational waves with microwave cavities. In: Physical review. D, 2022, vol. 105, n° 11, p. 116011. doi: 10.1103/physrevd.105.116011
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ISSN of the journal2470-0010
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