Optical and soft X-ray light-curve analysis during the 2022 eruption of U Scorpii: Structural changes in the accretion disk

IF 2.2 4区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Publications of the Astronomical Society of Japan Pub Date : 2024-03-07 DOI:10.1093/pasj/psae010
Katsuki Muraoka, Naoto Kojiguchi, Junpei Ito, Daisaku Nogami, Taichi Kato, Yusuke Tampo, Kenta Taguchi, Keisuke Isogai, Teofilo Arranz, John Blackwell, David Blane, Stephen M Brincat, Graeme Coates, Walter Cooney, Shawn Dvorak, Charles Galdies, Daniel Glomski, Franz-Josef Hambsch, Barbara Harris, John Hodge, Jose L Hernández-Verdejo, Marco Iozzi, Hiroshi Itoh, Seiichiro Kiyota, Darrell Lee, Magnus Larsson, Tapio Lahtinen, Gordon Myers, Berto Monard, Mario Morales Aimar, Masayuki Moriyama, Masanori Mizutani, Kazuo Nagai, Thabet AlQaissieh, Aldrin B Gabuya, Mohammad Odeh, Carlos Perello, Andrew Pearce, Juan Miguel Perales, David Quiles, Filipp D Romanov, David J Lane, Michael Richmond, Nello Ruocco, Yasuo Sano, Mark Spearman, Richard Schmidt, Tonny Vanmunster, Pavol A Dubovsky, Richard Wagner, Guido Wollenhaupt, Joachim Lorenz, Gerhard Lehmann, Andrea Salewski, Guy Williamson
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Abstract

We present our optical photometric observations of the 2022 eruption of the recurrent nova U Scorpii (U Sco) using 49152 data points over 70 d following the optical peak. We have also analyzed its soft X-ray (0.3–1 keV) light curve by the Neil Gehrels Swift Observatory. During the 2022 eruption, the optical plateau stage started 13.8–15.0 d and ended 23.8–25.0 d after the optical peak. The soft X-ray stage started 14.6–15.3 d and ended 38.7–39.5 d after the optical peak. Both stages started later and had shorter durations, and the soft X-ray light curve peaked earlier and was less luminous compared to those during the U Sco 2010 eruption. These points suggest that there were differences in the envelope mass between the different cycles of the nova eruption. Furthermore, we have analyzed the optical eclipses during the 2022 eruption. The primary eclipse was first observed 10.4–11.6 d after the optical peak, earlier than the beginning of the optical plateau stage. This sequence of events can be explained by the receding ejecta photosphere associated with the expanding nova ejecta. We have determined the ingress and egress phases of the primary eclipses and estimated the outer radius of the optical light source centered at the white dwarf (WD). During the optical plateau stage, the source radius remained ∼1.2 times larger than the Roche volume radius of the primary WD, being close to the L1 point. When the optical plateau stage ended, the source radius drastically shrank to the tidal truncation radius within a few orbital periods. This previously unresolved phenomenon can be interpreted as a structural change in U Sco where the temporarily expanded accretion disk due to the nova wind returned to a steady state.
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2022 年天蝎座 U 爆发期间的光学和软 X 射线光曲线分析:吸积盘的结构变化
我们利用光学峰值后 70 天内的 49152 个数据点,对 2022 年爆发的天蝎座 U 新星(U Sco)进行了光学测光观测。我们还利用 Neil Gehrels Swift 天文台分析了它的软 X 射线(0.3-1 keV)光曲线。在 2022 年的爆发期间,光学高原阶段开始于光学峰值之后的 13.8-15.0 d,结束于 23.8-25.0 d。软 X 射线阶段开始于 14.6-15.3 d,结束于光学峰值之后的 38.7-39.5 d。与 U Sco 2010 爆发期间相比,这两个阶段开始得较晚,持续时间较短,软 X 射线光曲线达到峰值的时间较早,亮度较低。这些都表明,在新星爆发的不同周期中,包层质量存在差异。此外,我们还分析了 2022 年爆发期间的光学食。初食在光学峰值后 10.4-11.6 d 首次观测到,早于光学高原阶段的开始。这一系列事件可以用与新星喷出物膨胀相关的喷出物光球后退来解释。我们测定了主食的进入和退出阶段,并估算了以白矮星(WD)为中心的光学光源外半径。在光学高原阶段,光源半径一直比原生白矮星的罗氏体积半径大1.2倍,接近L1点。当光学高原阶段结束时,源半径在几个轨道周期内急剧缩小到潮汐截断半径。这一之前尚未解决的现象可以解释为 U Sco 的结构发生了变化,新星风导致暂时膨胀的吸积盘恢复到了稳定状态。
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来源期刊
Publications of the Astronomical Society of Japan
Publications of the Astronomical Society of Japan 地学天文-天文与天体物理
CiteScore
4.10
自引率
13.00%
发文量
98
审稿时长
4-8 weeks
期刊介绍: Publications of the Astronomical Society of Japan (PASJ) publishes the results of original research in all aspects of astronomy, astrophysics, and fields closely related to them.
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