# Axion-electrodynamics: a quantum field calculation

**Authors:** Marc Beutter, Andreas Pargner, Thomas Schwetz, Elisa Todarello

arXiv: 1812.05487 · 2019-03-01

## TL;DR

This paper uses quantum field theory to derive how a background axion field induces tiny oscillating electromagnetic signals in a static magnetic field, clarifying the dependence on the size of the magnetic region relative to the axion wavelength.

## Contribution

It provides a quantum field theoretical derivation of the induced electromagnetic fields by axions, confirming previous results and offering an intuitive interpretation based on momentum exchange.

## Key findings

- Induced fields are suppressed when the magnetic region size is smaller than the axion wavelength.
- The derived expressions confirm previous classical results.
- The approach offers a clear interpretation in terms of 4-momentum conservation.

## Abstract

An axion background field induces tiny oscillating electric and magnetic fields in an external static magnetic field. This signature is used to search for axion dark matter. We use standard quantum field theory techniques to obtain an expression for a transition amplitude, from which we identify the classical electromagnetic fields induced by the background axion field. We confirm previous results, that if the spatial size $R$ of the applied static magnetic field is small compared to the axion Compton wavelength $\lambda$, the induced electric and magnetic fields are parametrically suppressed by the small numbers $(R/\lambda)^2$ and $R/\lambda$, respectively, relative to the case when $R$ is larger than $\lambda$. Our approach allows an intuitive interpretation in terms of 4-momentum conservation and momentum exchange via the photon propagator.

## Full text

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## Figures

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## References

29 references — full list in the complete paper: https://tomesphere.com/paper/1812.05487/full.md

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Source: https://tomesphere.com/paper/1812.05487