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The curious case of EP241021a: Unraveling the mystery of its exceptional rebrightening

Mar 18, 2025
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Abstract: (arXiv)
Fast X-ray Transients (FXTs) are a rare and poorly understood phenomenon with a variety of possible progenitors. The launch of the Einstein Probe (EP) mission has facilitated a rapid increase in the real-time discovery and follow-up of FXTs. We focus on the recent EP discovered transient EP241021a, which shows a peculiar panchromatic behavior. We obtained optical and near-infrared multi-band imaging and spectroscopy with the Fraunhofer Telescope at Wendelstein Observatory, the Hobby-Eberly Telescope, and the Very Large Telescope over the first 100 days of its evolution. EP241021a was discovered by EP as a soft X-ray trigger, but was not detected at gamma-ray frequencies. The observed soft X-ray prompt emission spectrum is consistent with non-thermal radiation, which requires at least a mildly relativistic outflow with bulk Lorentz factor Γ4\Gamma \gtrsim 4. The optical and near-infrared lightcurve has a two component behavior where an initially fading component t1\sim t^{-1} turns to a rise steeper than t4\sim t^{4} after a few days before peaking at Mr22M_r\approx -22 mag and quickly returning to the initial decay. The peak absolute magnitude is the most luminous optical emission associated to an FXT, superseding EP240414a. Standard supernova models are unable to reproduce either the absolute magnitude or rapid timescale (<2<2 d) of the rebrightening. The X-ray, optical and near-infrared spectral energy distributions display a red color rJ1r-J\approx 1 mag, and point to a non-thermal origin (ν1\nu^{-1}) for the broadband emission. By considering a gamma-ray burst as a plausible scenario, we favor a refreshed shock as the cause of the rebrightening. This is consistent with the inference of an at least mildly relativistic outflow based on the prompt trigger. Our results suggest a likely link between EP discovered FXTs and low luminosity gamma-ray bursts.
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  • Submitted to A&A