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Astrophysical Limits on Very Light Axion-like Particles from Chandra Grating Spectroscopy of NGC 1275

Christopher S. Reynolds, M. C. David Marsh, Helen R. Russell, Andrew C. Fabian, Robyn Smith, Francesco Tombesi, Sylvain Veilleux

2020The Astrophysical Journal139 citationsDOIOpen Access PDF

Abstract

Abstract Axions/axion-like particles (ALPs) are a well-motivated extension of the Standard Model and are generic within String Theory. The X-ray transparency of the intracluster medium (ICM) in galaxy clusters is a powerful probe of light ALPs (with mass ); as X-ray photons from an embedded or background source propagate through the magnetized ICM, they may undergo energy-dependent quantum mechanical conversion into ALPs (and vice versa), imprinting distortions on the X-ray spectrum. We present Chandra data for the active galactic nucleus NGC 1275 at the center of the Perseus cluster. Employing a 490 ks High Energy Transmission Gratings exposure, we obtain a high-quality 1–9 keV spectrum free from photon pileup and ICM contamination. Apart from iron-band features, the spectrum is described by a power-law continuum, with any spectral distortions at the <3% level. We compute photon survival probabilities as a function of ALP mass m a and ALP-photon coupling constant for an ensemble of ICM magnetic field models, and then use the NGC 1275 spectrum to constrain the -plane. Marginalizing over magnetic field realizations, the 99.7% credible region limits the ALP-photon coupling to (depending upon magnetic field model) for masses . These are the most stringent limit to date on for these light ALPs, and have already reached the sensitivity limits of next-generation helioscopes and light-shining-through-wall experiments. We highlight the potential of these studies with the next-generation X-ray observatories Athena and Lynx , but note the critical importance of advances in relative calibration of these future X-ray spectrometers.

Topics & Concepts

PhysicsAstrophysicsPhotonGalaxyActive galactic nucleusMagnetic fieldIntracluster mediumGalaxy clusterExtragalactic background lightUniverseSpectroscopyInitial mass functionAstronomyCoupling constantDark matterGalactic CenterCoupling (piping)Galaxy groups and clustersField (mathematics)Hubble Deep FieldSpectral linePhoton energyObservatoryEmission spectrumDark Matter and Cosmic PhenomenaAstrophysics and Cosmic PhenomenaGalaxies: Formation, Evolution, Phenomena