Multi-Wavelength Observations of GRB 111228A and Implications for the Fireball and its environment

Abstract

Observations of very early multi-wavelength afterglows are critical to reveal the properties of the radiating fireball and its environment as well as the central engine of gamma-ray bursts (GRBs). We report our optical observations of GRB 111228A from 95 sec to about 50 hours after the burst trigger and investigate its properties of the prompt gamma-rays and the ambient medium using our data and the data observed with Swift and Fermi missions. Our joint optical and X-ray spectral fits to the afterglow data show that the ambient medium features as low dust-to-gas ratio. Incorporating the energy injection effect, our best fit to the afterglow lightcurves with the standard afterglow model via the Markov Chain Monte Carlo (MCMC) technique shows that εe=(6.9 0.3)× 10-2, εB=(7.73 0.62)× 10-6, E K=(6.32 0.86)× 1053 erg, n=0.100 0.014 cm-3. The low medium density likely implies that the afterglow jet may be in a halo or in a hot ISM. Achromatic shallow decay segment observed in the optical and X-ray bands is well explained with the long-lasting energy injection from the central engine, which would be a magnetar with a period of about 1.92 ms inferred from the data. The Ep of its time-integrated prompt gamma-ray spectrum is 26 KeV. Using the initial Lorentz factor (0=476+225-237) derived from our afterglow model fit, it is found that GRB 111228A satisfies the L iso-E p,z-0 relation and bridges the typical GRBs and low luminosity GRBs in this relation.