Circumnuclear Dust in AP Librae and the source of its VHE emission

TL;DR

This study investigates the origin of high-energy emission in blazar AP Librae, revealing that dust and CMB photons contribute to its broad spectrum, challenging previous models that solely attributed emission to the jet core.

Contribution

The paper provides new high-resolution HST and ALMA observations showing dust and jet features, and proposes a combined IC scattering model involving dust and CMB photons for the VHE emission.

Findings

Deep upper limit on kpc-scale jet infrared emission

Detection of a thermal dust disk signature

Broad high-energy spectrum explained by combined IC scattering

Abstract

The broad high-energy spectral component in blazars is usually attributed to various inverse Compton scattering processes in the relativistic jet, but has not been clearly identified in most cases due to degeneracies in physical models. AP Librae, a low-synchrotron-peaking BL Lac object (LBL) detected in 2015 by H.E.S.S. at very high energies (VHE; $>$ 0.5 TeV), has an extremely broad high-energy spectrum, covering $\sim$ 9 decades in energy. Standard synchrotron self-Compton models generally fail to reproduce the VHE emission, which has led to the suggestion that it might arise not from the blazar core, but on kiloparsec scales from inverse Compton scattering of cosmic microwave background (CMB) photons by a still-relativistic jet (IC/CMB). IC/CMB models for the TeV emission of AP Librae in prior works have implied a high level of infrared emission from the kpc-scale jet. With newly obtained Hubble Space Telescope imaging, we obtain a deep upper limit on the kpc-scale jet emission at 1.6 $\mu$m, well below the expected level. High-resolution ALMA imaging in bands 3-9 reveals a residual dust disk signature after core subtraction, with a clearly thermal spectrum, and an extent ($\sim$500 pc) which matches with a non-jet residual emission seen after PSF subtraction in our 1.6 $\mu$m HST imaging. We find that the unusually broad GeV and VHE emission in AP Librae can be reproduced through the combined IC scattering of photons from the CMB and the dust disk, respectively, by electrons in both the blazar core and sub-kpc jet.