The long rapid decay phase of the extended emission from the short GRB 080503

TL;DR

This paper analyzes the extended emission and rapid decay phase of short GRB 080503, modeling its spectral and temporal features to understand the underlying physical mechanisms and compare them with long GRBs.

Contribution

It introduces a detailed physical model fitting the extended emission and rapid decay phase, revealing the need for multiple pulses and complex spectral evolution in short GRBs.

Findings

Single pulse fit is inadequate for the data.

Two spectral components with different behaviors are likely present.

The rapid decay phase may involve mechanisms beyond high latitude emission.

Abstract

GRB080503 was classified as a short GRB with extended emission (Perley et al. 2009). The origin of such extended emission (found in about a quarter of Swift short GRBs) is still unclear and may provide some clues to the identity of the elusive progenitors of short GRBs. The extended emission from GRB 080503 is followed by a rapid decay phase (RDP) that is detected over an unusually large dynamical range (one decade in time and ~3.5 decades in flux). We model the broad envelope of extended emission and the subsequent RDP using a physical model (Genet & Granot 2009), in which the prompt emission (and its tail) is the sum of its individual pulses (and their tails). For GRB 080503, a single pulse fit is found to be unacceptable. The RDP displays very strong spectral evolution and shows some evidence for the presence of two spectral components with different temporal behaviour, likely arising from distinct physical regions. A two pulse fit provides a much better fit to the data. The shallow gamma-ray and steep hard X-ray decays are hard to account for simultaneously, and require the second pulse to deviate from the simplest version of the model we use. Therefore, while high latitude emission is a viable explanation for the RDP in GRB080503, it is quite plausible that another mechanism is at work here. Finally, we note that the properties of the RDP following the extended emission of short GRBs appear to have different properties than that following the prompt emission of long GRBs. However, a larger sample of short GRBs with extended emission is required before any strong conclusion can be drawn.