Litcius/Paper detail

Fermi/GBM Observations of the SGRJ1935+2154 Burst Forest

Yuki Kaneko, Ersin Göğüş, Matthew G. Baring, Chryssa Kouveliotou, Lin Lin, Oliver J. Roberts, Alexander J. van der Horst, George Younes, Özge Keskin, Ömer Faruk Çoban

2021The Astrophysical Journal Letters23 citationsDOIOpen Access PDF

Abstract

Abstract During 2020 April and May, SGR J1935+2154 emitted hundreds of short bursts and became one of the most prolific transient magnetars. At the onset of the active bursting period, a 130 s burst “forest,” which included some bursts with peculiar time profiles, were observed with the Fermi/Gamma-ray Burst Monitor (GBM). In this Letter, we present the results of time-resolved spectral analysis of this burst “forest” episode, which occurred on 2020 April 27. We identify thermal spectral components prevalent during the entire 130 s episode; high-energy maxima appear during the photon flux peaks, which are modulated by the spin period of the source. Moreover, the evolution of the ν F ν spectral hardness (represented by E peak or blackbody temperature) within the lightcurve peaks is anti-correlated with the pulse phases extrapolated from the pulsation observed within the persistent soft X-ray emission of the source six hours later. Throughout the episode, the emitting area of the high-energy (hotter) component is 1–2 orders of magnitude smaller than that for the low-energy component. We interpret this with a geometrical viewing angle scenario, inferring that the high-energy component likely originates from a low-altitude hotspot located within closed toroidal magnetic field lines.

Topics & Concepts

Black-body radiationPhysicsAstrophysicsBurstingSpectral analysisToroidMaximaPhotonFlux (metallurgy)Hotspot (geology)Spectral lineThermalMagnetic fieldPulse (music)Thermal emissionAstronomyMagnitude (astronomy)Spectral propertiesEmission spectrumGeologySpectral shape analysisGamma-ray bursts and supernovaePulsars and Gravitational Waves ResearchAstrophysical Phenomena and Observations