Classical novae in the ASKAP pilot surveys

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL
Ashna Gulati, T. Murphy, D. Kaplan, R. Soria, J. Leung, Yuanming Wang, J. Pritchard, E. Lenc, S. Duchesne, A. O’Brien
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Abstract

Abstract We present a systematic search for radio counterparts of novae using the Australian Square Kilometer Array Pathfinder (ASKAP). Our search used the Rapid ASKAP Continuum Survey, which covered the entire sky south of declination $+41^{\circ}$ ( $\sim$ $34000$ square degrees) at a central frequency of 887.5 MHz, the Variables and Slow Transients Pilot Survey, which covered $\sim$ $5000$ square degrees per epoch (887.5 MHz), and other ASKAP pilot surveys, which covered $\sim$ 200–2000 square degrees with 2–12 h integration times. We crossmatched radio sources found in these surveys over a two–year period, from 2019 April to 2021 August, with 440 previously identified optical novae, and found radio counterparts for four novae: V5668 Sgr, V1369 Cen, YZ Ret, and RR Tel. Follow-up observations with the Australian Telescope Compact Array confirm the ejecta thinning across all observed bands with spectral analysis indicative of synchrotron emission in V1369 Cen and YZ Ret. Our light-curve fit with the Hubble Flow model yields a value of $1.65\pm 0.17 \times 10^{-4} \rm \:M_\odot$ for the mass ejected in V1369 Cen. We also derive a peak surface brightness temperature of $250\pm80$ K for YZ Ret. Using Hubble Flow model simulated radio lightcurves for novae, we demonstrate that with a 5 $\sigma$ sensitivity limit of 1.5 mJy in 15-min survey observations, we can detect radio emission up to a distance of 4 kpc if ejecta mass is in the range $10^{-3}\rm \:M_\odot$ , and upto 1 kpc if ejecta mass is in the range $10^{-5}$ – $10^{-3}\rm \:M_\odot$ . Our study highlights ASKAP’s ability to contribute to future radio observations for novae within a distance of 1 kpc hosted on white dwarfs with masses $0.4$ – $1.25\:\rm M_\odot$ , and within a distance of 4 kpc hosted on white dwarfs with masses $0.4$ – $1.0\:\rm M_\odot$ .
ASKAP试点调查中的经典新星
摘要利用澳大利亚平方公里阵列探路者(ASKAP)系统搜索新星的无线电对应物。我们的搜索使用了快速ASKAP连续测量(Rapid ASKAP Continuum Survey),它以887.5 MHz的中心频率覆盖了赤纬$+41^{\circ}$ ($\sim$$34000$平方度)以南的整个天空,变量和慢瞬变先导测量(Variables and Slow Transients Pilot Survey),覆盖了$\sim$$5000$平方度/历元(887.5 MHz),以及其他ASKAP先导测量,覆盖了$\sim$ 200-2000平方度,积分时间为2-12小时。在2019年4月至2021年8月的两年时间里,我们将这些调查中发现的射电源与440颗先前发现的光学新星进行了交叉匹配,并发现了4颗新星的射电对应体:V5668 Sgr, V1369 Cen, YZ Ret和RR Tel.澳大利亚望远镜紧凑型阵列的后续观测证实了所有观测波段的喷射物变薄,光谱分析表明V1369 Cen和YZ Ret同步辐射。我们的光曲线与哈勃流模型拟合得出V1369 Cen喷射物的值为$1.65\pm 0.17 \times 10^{-4} \rm \:M_\odot$。我们还推导出YZ Ret的峰值表面亮度温度为$250\pm80$ K。利用哈勃流模型模拟新星的射电光曲线,我们证明了在15分钟的巡天观测中,5 $\sigma$灵敏度极限为1.5 mJy,如果弹射质量在$10^{-3}\rm \:M_\odot$范围内,我们可以探测到距离为4 kpc的射电发射,如果弹射质量在$10^{-5}$ - $10^{-3}\rm \:M_\odot$范围内,我们可以探测到距离为1 kpc的射电发射。我们的研究强调了ASKAP能够为未来的射电观测做出贡献,这些新星的距离在1 kpc内,质量为$0.4$ - $1.25\:\rm M_\odot$的白矮星上,以及距离在4 kpc内,质量为$0.4$ - $1.0\:\rm M_\odot$的白矮星上。
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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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