GRB 140423A: A Case of Stellar Wind to Interstellar Medium Transition in the Afterglow

Abstract

We present very early ground-based optical follow-up observations of GRB~140423A, which was discovered by Swift/BAT and by Fermi/GBM. Its broadband afterglow was monitored by Swift/XRT and ground-based optical telescopes from T0+70.96~s to 4.8~d after the Swift/BAT trigger. This is one more case of prompt optical emission observation. The temporal and spectral joint fit of the multiwavelength light curves of GRB 140423A reveals that achromatic behavior is consistent with the external shock model including a transition from a stellar wind to the interstellar medium (ISM) and energy injection. In terms of the optical light curves, there is an onset bump in the early afterglow with a rising index α O,I = -0.59 0.04 (peaking at t peak-T0 ≈ 206~s). It then decays with a steep index α O,II = 1.78 0.03, and shows a steeper to flatter "transition" with α O,III = 1.13 0.03 at around T0 + 5000~s. The observed X-ray afterglow reflects an achromatic behavior, as does the optical light curve. There is no obvious evolution of the spectral energy distribution between the X-ray and optical afterglow, with an average value of the photon index ≈ 1.95. This "transition" is consistent with an external shock model having the circumburst medium transition from a wind to the ISM, by introducing a long-lasting energy injection with a Lorentz factor stratification of the ejecta. The best parameters from Monte Carlo Markov Chain fitting are E K,iso ≈ 2.14×1055 erg, 0 ≈ 162, εe ≈ 0.02, εB ≈ 1.7×10-6, A ≈ 1.0, Rt ≈ 4.1×1017 cm, n ≈ 11.0 \ cm-3, L0 ≈ 3.1×1052 \ erg\ s-1, k ≈ 1.98, s ≈ 1.54, and θj > 0.3 rad.