一颗新的 IW And 型恒星卡拉丘林 12,具有倾斜的星盘和多样的周期

Qi-Bin Sun, Sheng-Bang Qian, Li-Ying Zhu, Qin-Mei Li, Fu-Xing Li, Min-Yu Li and Ping Li
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摘要

大灾变中的IW And型现象对吸积盘不稳定性模型提出了重大挑战。利用来自全天空超新星自动巡天、兹威克瞬变设施和凌日系外行星巡天卫星的测光数据,我们发现卡拉丘林12是一个新的非彗星IW And型天体,其周期为35.69(3)天。我们还首次报告卡拉丘林 12 是一个负超穹隆(NSH)系统,其特征是前摄倾斜盘,前摄周期、轨道周期和 NSH 周期分别为 4.9588(2)天、0.3168895(13)天和 0.2979861(8)天。我们的分析以凹点为指标,以NSH为探针,揭示了卡拉丘林12的不同周期模式,NSH振幅在整个周期中各不相同。这些发现为研究倾斜盘和 IW And 型现象提供了新的见解。质量转移爆发模型难以解释观测到的 NSH 振幅变化,特别是考虑到围绕质量转移爆发起源的不确定性。与此同时,倾斜热不稳定盘模型表明可能与 IW And 型现象有关,但也难以解释卡拉丘林 12 的详细变化。因此,要充分理解卡拉丘林 12 的复杂变化,必须考虑更广泛的因素。
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A New IW And-type Star: Karachurin 12 with Tilted Disks and Diverse Cycles
The IW And-type phenomenon in cataclysmic variables presents a significant challenge to the accretion disk instability model. Using photometric data from the All-Sky Automated Survey for Supernovae, the Zwicky Transient Facility, and the Transiting Exoplanet Survey Satellite, we identify Karachurin 12 as a new noneclipsing IW And-type object with a cycle period of 35.69(3) days. We also report for the first time that Karachurin 12 is a negative superhump (NSH) system featuring precessing tilted disks, with precession, orbital, and NSH periods of 4.9588(2) days, 0.3168895(13) days, and 0.2979861(8) days, respectively. Our analysis, using dips as the index and NSHs as the probe, reveals diverse cycle patterns in Karachurin 12, with NSH amplitude varying throughout the cycle. These findings offer new insights for studying tilted disks and the IW And-type phenomenon. The mass-transfer burst model has difficulty explaining the observed variations in NSH amplitude, especially given the uncertainty surrounding the origin of the mass-transfer burst. Meanwhile, the tilted thermally unstable disk model indicates a possible connection to the IW And-type phenomenon, but it also struggles to account for the detailed variations in Karachurin 12. Therefore, a wider range of factors must be considered to fully understand the complex changes in Karachurin 12.
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