Axion spectra and the associated x-ray spectra of low-mass stars

Abstract

For the first time, we predict the axion spectra and their associated luminosities for several low-mass stars -- one and two solar masses stars in the main sequence and post-main sequence stages of evolution. Equally, we also compute the x-ray excess emission resulting from the conversion of axions back to photons in the presence of a strong magnetic field in the envelope of these stars. Hence, a given star will have a unique axion spectrum and La axion luminosity. And if such star has a strong magnetic field in its stellar envelope, it will also show a characteristic x-ray spectrum and Laγ x-ray luminosity. Such radiation will add up to the x-ray electromagnetic spectrum and LX luminosity of the star. The present study focuses on axion models with an axion-photon coupling constant, 5\;10-11 GeV-1, a value just below the most recent upper limit of 6.6\;10-11 GeV-1 found by CAST and IAXO helioscopes. The range of axion parameters discussed here spans many axion models' parameter space, including the DFSZ and KSVZ models. We found that axions with a mass in the range 10-7 to 10-5\; eV and an axion-photon coupling constant of 5\;10-11 GeV-1 produce an axion emission spectra with an averaged axion energy that varies from 1 to 5 KeV, and an La ranging from 10-6 to 7\;10-3 \;L. We also predict that Laγ varies from 5\;10-8 to 10-5 \;L for stars with an averaged magnetic field of 3 \;104\; G in their atmospheres. Most of these Laγ predictions are larger than the LX observed in some stars. Therefore, such preliminary results show the potential of the next generation of stellar x-ray missions to constrain several classes of axion models.