Deepika Venkattu, Peter Lundqvist, Miguel Pérez Torres, Etienne Bonnassieux, Cyril Tasse, Anne-Laure Melchior and Francoise Combes
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引用次数: 0
摘要
我们首次以 150 MHz 的频率提供了 M31 中心的 LOFAR 图像。我们清楚地探测到了三颗超新星的残余物,这与 3 GHz 的 VLA 存档数据以及其他已发表的射电和 X 射线数据一起,使我们能够详细地描述它们的特征。我们的观测还让我们获得了历史上的 SN 1885A 的上限,即使在 150 MHz 的低频下,它也没有被探测到。通过分析建模,我们发现 SN 1885A 至少还将在自由膨胀阶段持续几个世纪。我们发现SN 1885A的星际介质上限为nH ≲ 0.04 cm-3,而且SN喷出物密度不浅于∝r-9(平均值)。从 X 射线的 2.6σ 暂定探测结果来看,我们的分析表明 SN 1885A 的非热辐射预计将占主导地位。将我们的结果与 G1.9+0.3 的结果相比较,我们发现 G1.9+0.3 的不对称性很可能使其成为比 SN 1885A 更有效的射电和 X 射线发射器。对于该区域的其他残余物布劳恩 80、95 和 101,我们估计其年龄分别为 5200、8100 和 13100 年,冲击速度分别为 1150、880 和 660 km s-1。据此推算,M31中心0.5 kpc × 0.6 kpc区域的超新星发生率至少为每 ∼3000 年一颗。我们估计这些残余物的射电光谱指数分别为-0.66 ± 0.05、-0.37 ± 0.03和-0.50 ± 0.03,与之前的研究结果相当吻合。
SN 1885A and Supernova Remnants in the Centre of M31 with LOFAR
We present the first LOFAR image of the center of M31 at a frequency of 150 MHz. We clearly detect three supernova remnants, which, along with archival VLA data at 3 GHz and other published radio and X-ray data, allows us to characterize them in detail. Our observations also allow us to obtain upper limits of the historical SN 1885A, which is undetected even at a low frequency of 150 MHz. From analytical modeling, we find that SN 1885A will stay in its free-expansion phase for at least another couple of centuries. We find an upper limit of nH ≲ 0.04 cm−3 for the interstellar medium of SN 1885A, and that the SN ejecta density is not shallower than ∝r−9 (on average). From the 2.6σ tentative detection in X-ray, our analysis shows that nonthermal emission is expected to dominate the SN 1885A emission. Comparing our results with those on G1.9+0.3, we find that it is likely that the asymmetries in G1.9+0.3 make it a more efficient radio and X-ray emitter than SN 1885A. For Braun 80, 95, and 101, the other remnants in this region, we estimate ages of 5200, 8100, and 13,100 yr, and shock speeds of 1150, 880, and 660 km s−1, respectively. Based on this, the supernova rate in the central 0.5 kpc × 0.6 kpc of M31 is at least one per ∼3000 yr. We estimate radio spectral indices of −0.66 ± 0.05, −0.37 ± 0.03, and −0.50 ± 0.03 for the remnants, respectively, which match fairly well with previous studies.
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