关于使用天琴座田RR作为银河探测器 VII.LSST 测光系统中的光曲线模板

V. Braga, M. Monelli, M. Dall’ora, J.P. Mullen, R. Molinaro, M. Marconi, R. Szabo, C. Gallart
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摘要

Vera C. Rubin 天文台将于 2025 年开始运行。在头两年,每个波段每个目标的访问次数太少,这意味着对变星的平均星等测量不够精确,因此无法使用标准烛光,如天琴座RR(RRL)。如果变星的周期(加上振幅和参考纪元,取决于如何应用光曲线模板)已知,则可以采用光曲线模板(LCT),用几个星等测量值来估计变星的平均星等。LSST将在头六个月内提供精确的RRL周期,从而在有LCT的情况下利用RRL。我们的目标是在 LSST 波段建立 LCT,以加强 LSST 的早期科学研究。与传统的距离测量方法相比,使用 LCT 将带来一到两年的优势。我们收集了来自ZTF巡天的$gri$波段数据和来自DECam的$z$波段数据来建立RRL的LCT。我们还采用了LSST系统中来自脉动模型的合成$griz$波段数据,加上SDSS和OGLE光度测量,检查了不同光度测量系统中的光幅比,为应用LCT提供了有用的换算。我们在 LSST 测光系统的 $griz$ 波段建立了 RRL 的 LCT;在 $z$ 波段,我们只能建立基模 RRL 的 LCT。我们定量地证明了利用ZTF和DECam数据建立的LCT可以被LSST测光系统采用。与现有测量数据的简单平均值相比,LCT将使RRL距离估计值的不确定性降低至少两倍。最后,我们在测试中发现了大麦哲伦云振幅比的一种全新行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On the use of field RR Lyrae as Galactic probes VII. Light curve templates in the LSST photometric system
The Vera C. Rubin Observatory will start operations in 2025. During its first two years, too few visits per target per band will be available, meaning that the mean magnitude measurements of variable stars will not be precise and thus standard candles such as RR Lyrae (RRL) will not be usable. Light curve templates (LCTs) can be adopted to estimate the mean magnitude of a variable star with a few magnitude measurements, provided that their period (plus the amplitude and reference epoch, depending on how the LCT is applied) is known. The LSST will provide precise RRL periods within the first six months, enabling exploitation of RRLs if LCTs are available. We aim to build LCTs in the LSST bands to enhance the early science with LSST. Using them will provide a one- to two-year advantage with respect to the classical approach concerning distance measurements. We collected $gri$-band data from the ZTF survey and $z$-band data from DECam to build the LCTs of RRLs. We also adopted synthetic $griz$ band data in the LSST system from pulsation models, plus SDSS and OGLE photometry, inspecting the light amplitude ratios in different photometric systems to provide useful conversions to apply the LCTs. We have built LCTs of RRLs in the $griz$ bands of the LSST photometric system; for the $z$ band, we could build only fundamental mode RRL LCTs. We quantitatively demonstrated that LCTs built with ZTF and DECam data can be adopted on the LSST photometric system. The LCTs will decrease the uncertainty on distance estimates of RRLs by a factor of at least two with respect to a simple average of the available measurements. Finally, within our tests, we have found a brand new behavior of amplitude ratios in the Large Magellanic Cloud.
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