Diversity of multiwavelength emission bumps in the GRB 100219A afterglow

TL;DR

This study analyzes multi-wavelength observations of GRB 100219A, revealing uncommon late achromatic bumps likely caused by late internal shocks or structured jets, providing insights into the central engine activity and environment.

Contribution

It presents detailed multi-wavelength analysis of GRB 100219A, identifying the physical origin of late bumps and proposing models involving late internal shocks and structured jets.

Findings

Late achromatic bumps observed at ~20000 s post-burst

Early optical bump interpreted as afterglow onset

Dense environment inferred from spectral attenuation

Abstract

Context. Multi-wavelength observations of gamma-ray burst (GRB) afterglows provide important information about the activity of their central engines and their environments. In particular, the short timescale variability, such as bumps and/or rebrightening features visible in the multi-wavelength light curves, is still poorly understood. Aims. We analyze the multi-wavelength observations of the GRB100219A afterglow at redshift 4.7. In particular, we attempt to identify the physical origin of the late achromatic flares/bumps detected in the X-ray and optical bands. Methods. We present ground-based optical photometric data and Swift X-ray observations on GRB100219A. We analyzed the temporal behavior of the X-ray and optical light curves, as well as the X-ray spectra. Results. The early flares in the X-ray and optical light curves peak simultaneously at about 1000 s after the burst trigger, while late achromatic bumps in the X-ray and optical bands appear at about 20000 s after the burst trigger. These are uncommon features in the afterglow phenomenology. Considering the temporal and spectral properties, we argue that both optical and X-ray emissions come from the same mechanism. The late flares/bumps may be produced by late internal shocks from long-lasting activity of the central engine. An off-axis origin for a structured jet model is also discussed to interpret the bump shapes. The early optical bump can be interpreted as the afterglow onset, while the early X-ray flare could be caused by the internal activity. GRB 100219A exploded in a dense environment as revealed by the strong attenuation of X-ray emission and the optical-to-X-ray spectral energy distribution.