An extremely bright slow-rising afterglow from an off-axis jet in GRB 260310A

Abstract

We present a multi-wavelength study of GRB 260310A, a nearby long-duration gamma-ray burst at z0.153 associated with a broad-lined Type Ic supernova. Despite its modest prompt gamma-ray output, Eγ, iso3.5×1050 erg, GRB\,260310A exhibits one of the brightest afterglows ever observed in the X-ray, optical, and radio bands. Its apparent brightness is not its only remarkable feature. The optical afterglow displays a delayed onset, characterized by a slow rising phase, with slope α≈-1, and a late peak at ≈0.1 d. We argue that the combination of weak prompt emission, hard peak energy, and late afterglow onset is naturally explained by a GRB jet viewed off-axis. The radio spectral energy distributions are consistent with synchrotron radiation and indicate the presence of both reverse- and forward-shock components, thus providing a first test of reverse-shock models in an off-axis geometry. The X-ray afterglow displays a prominent rebrightening, monitored for up to ≈68 d with no evidence of spectral evolution. A low level of linear polarization, Π≈1.7\%, is measured at 15 GHz at T0+55 d and suggests that, at these late times, the forward-shock is the dominant emission component from radio to X-rays. This late-time rebrightening represents a critical test for the two-component jet model. If interpreted as the emergence of a narrow jet core viewed further off-axis, it would imply extreme luminosities and energetics for an on-axis observer.