# A Compact Jet at the Infrared Heart of the Prototypical Low-Luminosity   AGN in NGC 1052

**Authors:** J.A. Fern\'andez-Ontiveros, N. L\'opez-Gonzaga, M.A. Prieto, J.A., Acosta-Pulido, E. Lopez-Rodriguez, D. Asmus, K.R.W. Tristram

arXiv: 1903.05108 · 2019-03-27

## TL;DR

This study provides evidence that a compact jet dominates the nuclear emission in the low-luminosity AGN NGC 1052, based on high-resolution infrared interferometry, polarization, and spectral analysis, challenging the thermal emission hypothesis.

## Contribution

The paper demonstrates that in NGC 1052, a compact jet explains the nuclear emission across the spectrum, highlighting jet dominance in LLAGN and providing new insights into their emission mechanisms.

## Key findings

- Infrared interferometry unresolved source < 0.5 pc
- Mid-IR polarization of ~4% supports non-thermal origin
- Steep IR-to-UV continuum index of ~2.6 favors jet emission

## Abstract

The feeble radiative efficiency characteristic of Low-Luminosity Active Galactic Nuclei (LLAGN) is ascribed to a sub-Eddington accretion rate, typically at $\log(L_{\rm bol}/L_{\rm edd}) \lesssim -3$. At the finest angular resolutions that are attainable nowadays using mid-infrared (mid-IR) interferometry, the prototypical LLAGN in NGC 1052 remains unresolved down to $< 5\, \rm{mas}$ ($0.5\, \rm{pc}$). This is in line with non-thermal emission from a compact jet, a scenario further supported by a number of evidences: the broken power-law shape of the continuum distribution in the radio-to-UV range; the $\sim 4\%$ degree of polarisation measured in the nuclear mid-IR continuum, together with the mild optical extinction ($A_V \sim 1\, \rm{mag}$); and the "harder when brighter" behaviour of the X-ray spectrum, indicative of self-Compton synchrotron radiation. A remarkable feature is the steepness of the IR-to-UV core continuum, characterised by a power-law index of $\sim 2.6$, as compared to the canonical value of $0.7$. Alternatively, to explain the interferometric data by thermal emission would require an exceptionally compact dust distribution when compared to those observed in nearby AGN, with $A_V \gtrsim 2.8\, \rm{mag}$ to account for the IR polarisation. This is in contrast with several observational evidences against a high extinction along the line of sight, including the detection of the nucleus in the UV range and the well defined shape of the power-law continuum. The case of NGC 1052 shows that compact jets can dominate the nuclear emission in LLAGN across the whole electromagnetic spectrum, a scenario that might be common among this class of active nuclei.

## Full text

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## Figures

15 figures with captions in the complete paper: https://tomesphere.com/paper/1903.05108/full.md

## References

145 references — full list in the complete paper: https://tomesphere.com/paper/1903.05108/full.md

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Source: https://tomesphere.com/paper/1903.05108