A Comprehensive Analysis of the Swift/XRT Data: II. Diverse Physical Origins of the Shallow Decay Segment

TL;DR

This study analyzes 53 Swift GRBs to understand the shallow decay segment, revealing diverse physical origins including external shocks and internal processes, with implications for GRB central engine activity.

Contribution

It provides a comprehensive analysis of the shallow decay phase in GRBs, highlighting its varied physical origins and challenging the universality of external shock models.

Findings

The shallow decay segment shows log-normal or normal distributions.

E_{iso,X} correlates linearly with prompt gamma-ray energy.

Some bursts exhibit optical/X-ray decoupling and internal origin signatures.

Abstract

We analyze the properties of the shallow decay segment with a sample of 53 long Swift GRBs. We show that the distributions of its characteristics are log-normal or normal, and its isotropic X-ray energy (E_{iso,X}) is linearly correlated with the prompt gamma-ray energy, but with a steeper photon spectrum except for some X-ray flashes. No significant spectral evolution is observed from this phase to the follow-up phase, and the follow-up phase is usually consistent with the external shock models, implying that this segment likely due to a refreshed external shock. Within this scenario, the data are generally consistent with a roughly constant injection luminosity up to the end of this phase $t_b$. A positive correlation between E_{iso, X} and t_b also favors this scenario. Among the 13 bursts that have well-sampled optical light curves, 6 have an optical break around t_b and the breaks are consistent with being achromatic. However, the other 7 bursts either do not show an optical break or have a break at a different epoch than t_b. This raises a concern to the energy injection scenario, suggesting that the optical and X-ray emissions may not be the same component at least for a fraction of bursts. There are 4 significant outliers in the sample, and this shallow decau phase in these bursts is immediately followed by a very steep decay after t_b, which is inconsistent with any external shock model. The optical data of these bursts evolve independently from the X-ray data. These X-ray plateaus likely have an internal origin and demand continuous operation of a long-term GRB central engine. We conclude that the observed shallow decay phase likely has diverse physical origins(Abridged).