Evidence for a New Light Boson from Cosmological Gamma-Ray Propagation?

TL;DR

This paper suggests that the universe's unexpected transparency to gamma rays can be explained by photon oscillations into a very light Axion-Like Particle in extragalactic magnetic fields, offering a potential new physics insight.

Contribution

It provides a quantitative model linking gamma-ray transparency anomalies to Axion-Like Particles, testable with current gamma-ray observatories.

Findings

Photon oscillations into Axion-Like Particles can explain gamma-ray transparency.

Model successfully applied to blazar 3C279 observations.

Testable predictions for multiple gamma-ray detectors.

Abstract

An anomalously large transparency of the Universe to gamma rays has recently been discovered by the Imaging Atmospheric Cherenkov Telescopes (IACTs) H.E.S.S. and MAGIC. We show that observations can be reconciled with standard blazar emission models provided photon oscillations into a very light Axion-Like Particle occur in extragalactic magnetic fields. A quantitative estimate of this effect is successfully applied to the blazar 3C279. Our prediction can be tested with the satellite-borne Fermi/LAT detector as well as with the ground-based IACTs H.E.S.S., MAGIC, CANGAROOIII, VERITAS and the Extensive Air Shower arrays ARGO-YBJ andMILAGRO. Our result also offers an important observational test for models of dark energy wherein quintessence is coupled to the photon through an effective dimension-five operator.