Universe (Aug 2024)

Minute-Cadence Observations of the LAMOST Fields with the TMTS: IV—Catalog of Cataclysmic Variables from the First 3-yr Survey

  • Qichun Liu,
  • Jie Lin,
  • Xiaofeng Wang,
  • Zhibin Dai,
  • Yongkang Sun,
  • Gaobo Xi,
  • Jun Mo,
  • Jialian Liu,
  • Shengyu Yan,
  • Alexei V. Filippenko,
  • Thomas G. Brink,
  • Yi Yang,
  • Kishore C. Patra,
  • Yongzhi Cai,
  • Zhihao Chen,
  • Liyang Chen,
  • Fangzhou Guo,
  • Xiaojun Jiang,
  • Gaici Li,
  • Wenxiong Li,
  • Weili Lin,
  • Cheng Miao,
  • Xiaoran Ma,
  • Haowei Peng,
  • Qiqi Xia,
  • Danfeng Xiang,
  • Jicheng Zhang

DOI
https://doi.org/10.3390/universe10090337
Journal volume & issue
Vol. 10, no. 9
p. 337

Abstract

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The Tsinghua University–Ma Huateng Telescopes for Survey (TMTS) started to monitor the LAMOST plates in 2020, leading to the discovery of numerous short-period eclipsing binaries, peculiar pulsators, flare stars, and other variable objects. Here, we present the uninterrupted light curves for a sample of 64 cataclysmic variables (CVs) observed/discovered using the TMTS during its first three-year observations, and we introduce new CVs and new light-variation periods (from known CVs) revealed through the TMTS observations. Thanks to the high-cadence observations of TMTS, diverse light variations, including superhumps, quasi-periodic oscillations, large-amplitude orbital modulations, and rotational modulations, are able to be detected in our CV samples, providing key observational clues for understanding the fast-developing physical processes in various CVs. All of these short-timescale light-curve features help further classify the subtypes of CV systems. We highlight the light-curve features observed in our CV sample and discuss further implications of minute-cadence light curves for CV identifications and classifications. Moreover, we examine the Hα emission lines in the spectra from our nonmagnetic CV samples (i.e., dwarf novae and nova-like subclasses) and find that the distribution of Hα emission strength shows significant differences between the sources with orbital periods above and below the period gap, which agrees with the trend seen from the SDSS nonmagnetic CV sample.

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