http://arxiv.org/abs/2112.07958
With the possible spacial association to the Fermi/LAT source 3FGL J1330.0-3818, TOL 1326-379 may be the first one that is identified as a gamma-ray emitting Fanaroff-Riley type 0 radio galaxy (FR0 RG). We analyze the ~12 yr Fermi/LAT observation data of this gamma-ray source and examine its association to TOL 1326-379. We show that the gamma-ray source (named as J1331.0-3818) is tentatively detected with a TS value of 28.7, 3FGL J1330.0-3818 is out of the 95% containment of J1331.0-3818, and their positions are spatially separated ~0.2 degr. 4FGL J1331.3-3818 falls into the 68% containment of J1331.0-3818, suggesting that our result agrees with that reported in the Fourth Fermi LAT Source Catalog. TOL 1326-379 is out of the 95% containment of J1331.0-3818, and their positions are spatially separated ~0.4 degr, indicating that the association between J1331.0-3818 and TOL 1326-379 is quite ambiguous. However, we do not find other possible potential radio or X-ray counterpart within the circle centered at J1331.0-3818 with a radius of 0.4 degr. The spectral energy distribution (SED) of TOL 1326-379 shows a bimodal feature as seen in the gamma-ray emitting RGs. We fit the SED with the one-zone leptonic model and find that the average energy spectrum of J1331.0-3818 agrees with the model prediction. Assuming that J1331.0-3818 is an unidentified gamma-ray source, we derive the upper-limit of the gamma-ray flux for TOL 1326-379. It is not tight enough to exclude this possibility with the SED modeling. Based on these results, we cautiously argue that the gamma-ray source J1331.0-3818 is associated with TOL 1326-379 and its jet radiation physic is similar to those gamma-ray emitting RGs.
F. Wen-Jing, Z. Hai-Ming, Z. Jin, et. al.
Thu, 16 Dec 21
63/83
Comments: 14 pages, 6 figures, accepted for publication in RAA
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