A 6.37\, Hz quasi-periodic oscillating photospheric emission in GRB~240825A

Abstract

Using data from Swift-BAT and Fermi-GBM, we report the first detection of a high-confidence quasi-periodic oscillation (QPO) in the thermal emission of gamma-ray burst GRB~240825A. The spectral analysis of the burst reveals two radiation components, including a thermal emission dominant in 100 -- 300\,keV and a non-thermal emission spanning a wide energy range. During the interval 2.07 -- 3.25\,s post-trigger, a strong QPO signal at 6.37\,Hz ( 5σ confidence) is identified in the 100 -- 300\,keV thermal-dominated band. The variability analysis of the non-thermal component (15 -- 30\,keV) uncovered a 0.67\,Hz QPO, consistent with light-curve modeling using periodic fast-rise exponential decay pulses. The strong QPO in the photospheric emission directly indicates a quasi-periodic oscillating jet. Together with the non-thermal emission variability, we show that this QPO can be explained in terms of a helical structure in the jet, where the viewing angle to the dominant emission region in the jet undergoes periodic changes.