We present a generalized analytic formalism for the inverse Compton X-ray emission from hydrogen-poor supernovae and apply this framework to SN?2011fe using Swift X-Ray Telescope (XRT), UVOT, and Chandra observations. We characterize the optical properties of SN?2011fe in the Swift bands and find them to be broadly consistent with a "normal" SN Ia, however, no X-ray source is detected by either XRT or Chandra. We constrain the progenitor system mass-loss rate (3σ c.l.) for wind velocity vw = 100 km s–1. Our result rules out symbiotic binary progenitors for SN 2011fe and argues against Roche lobe overflowing subgiants and main-sequence secondary stars if 1% of the transferred mass is lost at the Lagrangian points. Regardless of the density profile, the X-ray non-detections are suggestive of a clean environment (n CSM 150 cm–3) for 2 × 1015 R 5 × 1016 cm around the progenitor site. This is either consistent with the bulk of material being confined within the binary system or with a significant delay between mass loss and supernova explosion. We furthermore combine X-ray and radio limits from Chomiuk et al. to constrain the post-shock energy density in magnetic fields. Finally, we searched for the shock breakout pulse using gamma-ray observations from the Interplanetary Network and find no compelling evidence for a supernova-associated burst. Based on the compact radius of the progenitor star we estimate that the shock breakout pulse was likely not detectable by current satellites.
展开▼
机译:我们提出了贫氢超新星逆康普顿X射线发射的广义分析形式,并使用Swift X射线望远镜(XRT),UVOT和Chandra观测将该框架应用于SN?2011fe。我们表征了斯威夫特波段SN?2011fe的光学性质,发现它们与“正常” SN Ia大致一致,但是,XRT或Chandra均未检测到X射线源。对于风速vw = 100 km s-1,我们限制了祖系统的质量损失率(3σc.l.)。我们的结果排除了SN 2011fe的共生双星祖细胞,并反对了如果在拉格朗日点损失了1%的转移质量,则罗氏叶溢流的亚次体和主序列次要恒星。不论密度分布如何,X射线未检测到都表明祖细胞周围2×1015 R 5×1016 cm的环境清洁(n CSM <150 cm–3)。这要么与被限制在二元系统中的大量物质相一致,要么与质量损失和超新星爆炸之间的显着延迟相一致。此外,我们还结合了Chomiuk等人的X射线和射电极限。限制磁场后的电击后能量密度。最后,我们使用来自行星际网络的伽马射线观测结果搜索了冲击爆发脉冲,没有发现令人信服的超新星相关爆发证据。根据祖先恒星的紧凑半径,我们估计当前卫星可能无法检测到冲击爆发脉冲。
展开▼
