用 K2 验证泛星 PS1 3pi 勘测中的天琴座 RR 周期测定结果

A. Forró, László Molnár, E. Plachy, Á. Juhász, R. Szabó
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摘要

Pan-STARRS 3pi 巡天观测由于其覆盖范围和 4 年的时间跨度,已经探测到了数十万颗变星,尽管光曲线的取样相对稀少。这些光曲线在五个滤光片(g、r、i、z、y)中每个滤光片只包含 10-15 个探测结果。在 K2 任务期间,开普勒太空望远镜以较高的采样频率沿黄道面进行了观测,尽管每次观测活动只有大约 80 天。对 K2 和 Pan-STARRS 观测到的天琴座 RR 星进行交叉匹配和研究,可以作为验证地基巡天的分类和周期测定的重要工具。我们使用了 Pan-STARRS 发现的天琴座 RR 星的 Sesar 星表。在确定了Pan-STARRS和K2观测到的恒星之间的重叠之后,我们还考虑了Gaia DR3 SOS RR Lyrae星表的数据,只要有这些恒星的数据,我们都会将其列入其中。光变频率的计算方法是在用自动EAP光度计绘制的K2光变曲线上应用Lomb-Scargle周期图法。然后将计算出的恒星频率与 Sesar 星表和 Gaia DR3 RR Lyrae 星表中给出的频率进行比较。我们发现,对于大多数恒星来说,Pan-STARRS RR Lyrae 星的分类(95.6)和频率测定(90.1)与我们从 K2 autoEAP 光曲线中得出的结果在 0.03 $d^ $ 的范围内是一致的。然而,在样本的一个重要子集(7.4)中,我们发现频率偏移了 1 或 2 d^ $。这是检测采样的结果,因为 Pan-STARRS 的观测受到昼夜周期的影响,而开普勒的测量是准连续的。我们发现,RRc 亚类受影响的程度(25.3)明显高于 RRab 亚类(3.7),这很可能是由于 RRc 星的光曲线特征不太鲜明。通过天基数据进行验证对未来的地基巡天也很重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Validation of the RR Lyrae period determination in the Pan-STARRS PS1 3pi survey with K2
The Pan-STARRS 3pi survey has detected hundreds of thousands of variable stars thanks to its coverage and 4-year time span, even though the sampling of the light curves is relatively sparse. These light curves contain only 10-15 detections in each of the five filters (g,r,i,z,y). During the K2 mission, the Kepler space telescope observed along the ecliptic plane with a high sampling frequency, although only for about 80 days in each of its campaigns. Crossmatching and investigating the RR Lyrae stars observed by both K2 and Pan-STARRS can serve as a valuable tool to validate the classification and period determination of the ground-based survey. We used the Sesar catalogue of RR Lyrae stars detected by Pan-STARRS. After determining the overlap between the stars observed by both Pan-STARRS and K2, we also considered the Gaia DR3 SOS RR Lyrae catalogue data for the list of these stars wherever it was available. The frequencies of the light variations were calculated by applying the Lomb-Scargle periodogram method on the K2 light curves that were prepared with autoEAP photometry. The calculated frequencies of the stars then were compared with those given in the Sesar catalogue and the Gaia DR3 RR Lyrae catalogue. We found that for the majority of the stars, the classification (95.6 ) and the frequency determination (90.1 ) of the Pan-STARRS RR Lyrae stars were consistent within 0.03 $d^ $ with those that we derived from the K2 autoEAP light curves. For a significant subset of the sample, 7.4 , however, an offset of 1 or 2 $d^ $ was found in the frequencies. These are the result of the sampling of the detections, because Pan-STARRS observations are affected by diurnal cycles, whereas Kepler carried out measurements quasi-continuously. We found that RRc subtypes are significantly more affected (25.3) than RRab subtypes (3.7), which is most likely caused by RRc stars having less sharp light curve features. Validation via space-based data will be important for future ground-based surveys, as well.
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