posted on 2012-10-24, 09:06authored byD Grupe, C Gronwall, X-Y Wang, PWA Roming, J Cummings, B Zhang, P Meszaros, MD Trigo, PT O'Brien, KL Page, A Beardmore, O Godet, vanden Berk DE, PJ Brown, S Koch, D Morris, M Stroh, DN Burrows, JA Nousek, MM Chester, S Immler, V Mangano, P Romano, G Chincarini, J Osborne, T Sakamoto, N Gehrels
We report the results of the Swift andXMM-Newton observations of the Swift -discovered GRB 060729 (T90 = 115 s).
The afterglow of this burst was exceptionally bright in X-rays as well as at UV/optical wavelengths, showing an
unusually long slow decay phase ( Alpha = 0.14 +/- 0.02), suggesting a larger energy injection phase at early times than
in other bursts. The X-ray light curve displays a break at about 60 ks after the burst. The X-ray decay slope after the
break is Alpha = 1.29 +/- 0.03. Up to 125 days after the burst we do not detect a jet break, suggesting that the jet opening
angle is larger than 28 degrees. We find that the X-ray spectra of the early phase change dramatically and can all be fitted by
an absorbed singleYpower-law models or alternatively by a blackbody plus power-law model. The power-law fits
show that the X-ray spectrum becomes steeper while the absorption column density decreases. In the blackbody
model the temperature decreases from kT = 0.6 to 0.1 keV between 85 and 160 s after the burst in the rest frame. The
afterglow was clearly detected up to 9 days after the burst in all six UVOT filters and in UVW1 even for 31 days. A
break at about 50 ks is clearly detected in all six UVOT filters from a shallow decay slope of about 0.3 and a steeper
decay slope of 1.3.The XMM-Newton observations started about 12 hr after the burst and show a typical afterglow
X-ray spectrum with Beta[SUBSCRIPT x] = 1.1 and absorption column density of 1 x 10^21 cm^-2