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Calculations of resonance enhancement factor in axion-search tube-experiments

It is pointed out that oscillating current density, produced due to the coupling between an external magnetic field and the cosmic axion field, can excite the TM resonant modes inside an open-ended cavity (tube). By systematically solving the field equations of axion-electrodynamics we obtain explicit expressions for the oscillating fields induced inside a cylindrical tube. We calculate the enhancement factor when a resonance condition is met. While the power obtained for TM modes replicates the previous result, we emphasize that the knowledge of explicit field configurations inside a tube opens up new ways to design axion experiments including a recent proposal to detect the induced fields using a superconducting LC circuit. In addition, as an example, we estimate the induced fields in a cylindrical tube in the presence of a static uniform magnetic field applied only to a part of its volume.

preprint2014arXivOpen access
Jooyoo HongJihn E. KimSoonkeon NamYannis Semertzidis
astro-ph.COhep-exhep-ph
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Jooyoo HongJihn E. KimSoonkeon NamYannis Semertzidis

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