24–28 Mar 2025
Florence, Italy
Europe/Rome timezone

Gamma-ray burst pulse structures and emission mechanisms

25 Mar 2025, 14:00
30m
Florence, Italy

Florence, Italy

Piazza Adua, 1, 50123 Firenze, Italia

Speaker

Gowri A (IUCAA, Pune)

Description

The prompt phase X- and γ-ray light curves of gamma-ray bursts (GRBs) exhibit erratic and complex behaviour, often with multiple pulses. The temporal shape of individual pulses is often modelled as ‘fast rise exponential decay’ (FRED). Here, we introduce a novel fitting function to quantify pulse asymmetry. We conduct a light curve and a time-resolved spectral analysis on 61 pulses from 22 GRBs detected by the Fermi Gamma-ray Burst Monitor. Contrary to previous claims, we find that only ∼ 50% of pulse light curves in our sample show a FRED shape, while about 25% have a symmetric light curve, and the other 25% have a mixed shape. Furthermore, our analysis reveals a clear trend: in multi-pulse bursts, the initial pulse tends to exhibit the most symmetric light curve, while subsequent pulses become increasingly asymmetric, adopting a more FRED-like shape. Additionally, we correlate the temporal and spectral shapes of the pulses. By fitting the spectra with the classical “Band” function, we find a moderate positive Spearman correlation index of 0.23 between pulse asymmetry and the low-energy spectral index α_max (the maximum value across all time bins covering an individual pulse). Thus, during GRB light curves, the pulses tend to get more asymmetric and spectrally
softer with time. We interpret this as a transition in the dominant emission mechanism from photospheric (symmetric-like and hard) to non-thermal emission above the photosphere and show that this interpretation aligns with a GRB jet Lorentz factor of the order of a few 10s in many cases.

Primary author

Gowri A (IUCAA, Pune)

Co-authors

Asaf Pe'er (Bar-Ilan University) Felix Ryde (KTH) Hüsne Dereli-Bégué (Bar-Ilan University)

Presentation materials