Simultaneous Multiband Photometry of the Early Optical Afterglow of GRB 240825A with Mephisto

TL;DR

This study presents detailed multiband optical observations of GRB 240825A, revealing a dense circumburst environment, a softer-than-typical spectral energy distribution, and insights into the host galaxy's properties.

Contribution

First simultaneous multiband photometry of GRB 240825A with analysis of its spectral and temporal properties, highlighting the dense circumburst medium and host galaxy characteristics.

Findings

Optical flux density follows a t^{-1.34} and ν^{-2.48} dependence.

An extra host-galaxy extinction of E_{B-V}~(0.37-0.57) mag is needed.

Host galaxy is a gas-rich, star-forming galaxy with stellar mass ~10^10 M_sun.

Abstract

Gamma-ray bursts (GRBs) are the most luminous transients in the universe. The interaction of the relativistic jet with the circumburst medium produces an afterglow and generates multiwavelength emission. In this work, we present simultaneous multiband photometry of GRB~240825A with the Multi-channel Photometric Survey Telescope (Mephisto) and analyze its temporal and spectral properties. The measurement began 128 seconds after the GRB trigger and continued until the fourth day when the afterglow essentially diminished and the measured brightness was close to that of the host galaxy. Based on the multiband light curves in the $uvgriz$ bands, we find that the optical flux density satisfies $F_{\nu,{\rm obs}}\propto t^{-1.34}\nu^{-2.48}$ with a spectral index of $2.48$ much larger than those of most other GRBs. To reconcile the measured much softer spectral energy distribution (SED) with that predicted by the standard afterglow model, an extra host-galaxy extinction of $E_{B-V}\sim(0.37-0.57)$ mag is required. We interpreted this excess as arising from a dense circumburst medium. We further find that the SED of the optical afterglow hardened as the afterglow decayed and the color excess $E_{B-V}$ decreased $\sim0.26$ mag from 100 seconds to 3000 seconds after the GRB trigger. Finally, we analyze the properties of the host galaxy of GRB~240825A based on data from the SDSS, PanSTARRS and HSC-SSP surveys. For a host redshift of $z=0.659$, the stellar mass and star formation rate of the host galaxy are estimated to be $\log(M_*/M_\odot)=10.0^{+0.3}_{-0.3}$ and $\log({\rm SFR}/M_{\odot}{\rm yr}^{-1})= 0.6^{+0.8}_{-3.3}$, respectively, pointing to a gas-rich, star-forming, medium-size galaxy.