Implications of modified AGN spectra due to absorption by infrared photons

Recent observations of high energy photons from active galactic nuclei (AGN) have lead to a renewed interest in the effect of gamma-ray cascading in background radiation fields. In recent years, numerous authors have explored possible modifications to the observed high energy photon spectra from AGN due to propagation through such fields. This paper will re-examine a number of these issues. The major conclusions of this paper are: (1) The reaction γ + γ → e⁺ + e⁻ provides a highly sensitive probe of background infrared (IR) fields. However little can be inferred about the specific nature of the IR background or the effect on spectra from more distant AGN from a study of nearby sources alone. Currently, only upper limits to the background IR density can be established. (2) The contribution of secondary photons from pair-cascading off of background microwave and infrared radiation is most likely unobservable in the regime of 1 TeV unless the strength of extragalactic magnetic fields are much less than 10⁻¹³ G and the inherent source spectra continue to much higher energies. The possible contribution from this process may be conclusively ruled out through further spectral measurements of AGN in the TeV regime during high and low states. (3) There is little hope of unambiguously extracting the values of either the Hubble constant or Ω from γ-γ attenuation measurements. (4) The sensitivity of the attenuation to the density of the background IR produced prior to the epoch of the observed source suggests a future possibility to probe directly the evolution of the background IR radiation through multiple source observations.