Abstract:
The discovery of faint Fanaroff–Riley type I (FR I) radio jets in the elliptical galaxy NGC 5322 is reported here using the
144-MHz image from Data Release 2 of the Low-Frequency Array (LOFAR) Two-metre Sky Survey (LoTSS). The jets have an
angular extent of ∼40 arcmin or a projected physical extent of ∼360 kpc. The faint jets remain well collimated and disappear
in the intergalactic medium, without any detected hotspots or radio lobes. The relatively brighter jets, previously detected only
up to the ∼21 kpc extent at higher frequencies, are within the optical extent of the galaxy. The jets become faint abruptly
outside, where detection is made only in the LOFAR image. The total radio luminosity of the galaxy at 144 MHz is estimated
to be (3.7 ± 0.4) × 1022 W Hz−1. The 144-MHz radio luminosity of the faint jets outside the optical extent is estimated to be
(7.1 ± 2.0) × 1021 W Hz−1. The size of the jets is exceptionally large for the galaxy’s low radio luminosity, when compared
with other radio galaxies. It makes NGC 5322 a rare radio galaxy, previously not detected in other radio surveys. A combined
effect of stellar core depletion and low-density environment around the jets, which results in a weak entrainment of the material
surrounding the jets, could be responsible for its large size despite a low radio luminosity.