タイトル | X-Ray, UV, and Optical Observations of Supernova 2006bp with Swift: Detection of Early X-Ray Emission |
本文(外部サイト) | http://hdl.handle.net/2060/20070036309 |
著者(英) | Roming, P. W. A.; Holland, S. T.; Brown, P. J.; Pian, E.; Burrows, D. N.; Soderberg, A. M.; Koss, M.; Stockdale, C. J.; Mazzali, P. A.; Gehrels, N.; Landsman, W.; Petre, R.; Immler, S.; Dessart, L.; Nomoto, K.; Kelley, M. T.; Pooley, D.; Greiner, J.; Milne, P.; Campana, S.; Williams, C. L.; Nousek, J. A.; Chevalier, R. A.; Weiler, K. W. |
著者所属(英) | NASA Goddard Space Flight Center |
発行日 | 2007-01-01 |
言語 | eng |
内容記述 | We present results on the X-ray and optical/UV emission from the Type IIP supernova (SN) 2006bp and the interaction of the SW shock with its environment, obtained with the X-Ray Telescope (XRT) and UV/Optical Telescope (UVOT) on-board the Swift observatory. SN 2006bp is detected in X-rays at a 4.5 sigmalevel of significance in the merged XRT data from days 1 to 12 after the explosion. If the (0.2-10 keV band) X-ray luminosity of L(sub 0.2-10) = (1.8 plus or minus 0.4) x l0(exp 39 ergs s(exp -1) is caused by interaction of the SN shock with circumstellar material (CSM), deposited by a stellar wind from the progenitor's companion star, a mass-loss rate of M is approximately 2x10(exp -6) solar mass yr(exp -1) (v(sub w)/10 km s(exp -l) is inferred. The mass-loss rate is one of the lowest ever recorded for a core-collapse SN and consistent with the non-detection in the radio with the VLA on days 2, 9, and 11 after the explosion. The Swift data further show a fading of the X-ray emission starting around day 12 after the explosion. In combination with a follow-up XMM-Newton observation obtained on day 21 after the explosion, an X-ray rate of decline Lx, varies as t(exp -n) with index n = 1.2 plus or minus 0.6 is inferred. Since no other SN has been detected in X-rays prior to the optical peak and since Type IIP SNe have an extended 'plateau' phase in the optical, we discuss the scenario that the X-rays might be due to inverse Compton scattering of photospheric optical photons off relativistic electrons produced in circumstellar shocks. However, due to the high required value of the Lorentz factor (approximately 10-100), inconsistent with the ejecta velocity inferred from optical line widths, we conclude that Inverse Compton scattering is an unlikely explanation for the observed X-ray emission. The fast evolution of the optical/ultraviolet (1900-5500A) spectral energy distribution and the spectral changes observed with Swift reveal the onset of metal line-blanketing and cooling of the expanding photosphere during the first few weeks after the outburst. |
NASA分類 | Astronomy |
権利 | Copyright, Distribution as joint owner in the copyright |
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