The fate of the progenitors of Luminous Red Novae: Infrared detection of LRNe years after the outburst
Abstract: We present late-time optical and infrared (IR) observations of a sample of nine extragalactic Luminous Red Novae (LRNe) discovered in the last three decades. In all these cases, the LRN survivors fade below the pre-outburst luminosity of the progenitors in the optical region. Instead, they remain visible in the near-IR (NIR), and bright in the mid-IR (MIR) domains for years. We recover AT 1997bs in $Spitzer$ images from 2004, and a residual source is visible in HST and $JWST$ NIR images 27 years after the outburst. Its spectral energy distribution (SED) is consistent with that of a red supergiant star with a photospheric temperature of 3200 K and a radius of 220 $R_{\odot}$, without a significant circumstellar dust attenuation, as the source is not detected at 4.5 $\mu$m. Another LRN, AT 2011kp, is detected by $JWST$ 12.5 years after the outburst. From its SED, we find evidence for three black-body components: a warm/hot stellar component, a colder component from cool dust at 425 K, emitting between 3 and 6 $\mu$m, and a third even colder component responsible for the excess at 8 $\mu$m, possibly due to an IR echo. We construct the $[3.6]-[4.5]$ colour curves extending up to +7 years for six LRNe, which show a similar evolution: the MIR colour is $\sim0$ before the optical maximum light, it becomes bluer ($\sim-0.5$ mag) at around +1 year, then it gradually turns to redder colours ($\sim+0.5$ mag) in the following years, before reaching $[3.6]-[4.5]\sim+1.5$ mag 7 years after the outburst. Finally, we also estimate the masses and the temperatures of newly-formed dust years after the LRN onset for different chemical compositions (silicates or graphite) and grain sizes (0.1 or 1.0 $\mu$m). We find that LRNe produce dust masses of the order of (0.1-30)$\times10{-6}$ $M_{\odot}$ between 3.6 and 13 years after the outbursts, with temperatures in the range from 350 to 770 K.
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