Subjects:High Energy Astrophysical Phenomena (astro-ph.HE); High Energy Physics - Phenomenology (hep-ph)
Gamma-ray bursts are divided into short gamma-ray bursts and long gamma-ray bursts based on the bimodal distribution of their durations. Long bursts and short bursts are typically characterized by different statistical characteristics. Nevertheless, there are some samples that challenge such a framework, such as GRB 060614, a long-duration burst with short burst characteristics. Furthermore, gamma-ray bursts are generally considered to be an event with no periodic or repetitive behavior, since the progenitors usually undergo destructive events, such as massive explosions or binary compact star mergers. In this work, we investigated Fermi data for possible quasi-periodic oscillations and repetitive behaviors of gamma-ray bursts using timing analysis methods and report a special event GRB 201104A, which is a long-duration burst with characteristics of a short burst, and it exhibits a "repetitive" behavior. We propose that such a situation may arise from lensed short gamma-ray bursts and attempt to verify it by Bayesian analysis. In addition, we extend the spectrum analysis to Bayesian inference. In spite of the existence of at least two distinct time periods with similar spectral distributions, there is no strong evidence that they result from a lensing gamma-ray burst. Taking the gravitational-lensing scenario out of consideration, a long burst would resemble a short burst in its repetitive behavior, which presents a challenge for the current classification scheme.
