Light-curve Recovery with Rubin-LSST. II. Unveiling the Darkness of the Galactic Bulge (VESTALE) with RR Lyrae

M. Di Criscienzo, S. Leccia, V. Braga, I. Musella, G. Bono, M. Dall’Ora, G. Fiorentino, M. Marconi, R. Molinaro, V. Ripepi, L. Girardi, A. Mazzi, G. Pastorelli, M. Trabucchi, N. Matsunaga, M. Monelli, A. Saha, K. A. Vivas and R. Zanmar Sanchez
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Abstract

This work is part of VESTALE, a project initiated within the Legacy Survey of Space and Time (LSST) Cadence Strategy Optimization Process. Its goal is to explore the potential of Rubin-LSST observations aimed at the Galactic bulge (henceforth just “Bulge”) for studying RR Lyrae (RRL) stars. Observation and analysis of RRL stars in the Bulge are crucial for tracing the old population of the central part of our Galaxy and reconstructing its formation. Based on observations conducted with CTIO/DECam by Saha et al. toward Baade’s window, our simulations demonstrate that early Rubin-LSST observations will enable the recovery of RRL light curves (LCs) at Galactic center distances with sufficient precision. This will allow us to utilize theoretical relations from Marconi et al. to determine their distances and/or metallicity, following the REDIME algorithm introduced in Bono et al. We show how reddening and crowding affect our simulations and highlight the importance of considering these effects when deriving pulsation parameters (luminosity amplitudes, mean magnitudes) based on the LCs, especially if the goal is to explore the opposite side of the Bulge through the observation of its RRL. The simulations discussed in this investigation were conducted to support the Survey Cadence Optimization Committee’s decision to observe this important sky region since it has only recently been decided to include part of the Bulge as a target within the LSST main survey.
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利用 Rubin-LSST 恢复光曲线。II.利用天琴座RR揭开银河凸起的黑暗面纱(VESTALE)
这项工作是VESTALE的一部分,VESTALE是在时空遗留巡天(LSST)Cadence战略优化过程中启动的一个项目。其目标是探索针对银河系凸起(以下简称 "凸起")的鲁宾-LSST观测在研究RR Lyrae(RRL)恒星方面的潜力。对隆起带中的RRL恒星进行观测和分析,对于追踪银河系中央部分的古老种群和重建其形成过程至关重要。根据Saha等人利用CTIO/DECam对Baade窗口进行的观测,我们的模拟证明早期的Rubin-LSST观测能够足够精确地恢复银河系中心距离上的RRL光变曲线(LC)。这将使我们能够利用马可尼等人的理论关系,按照 Bono 等人提出的 REDIME 算法来确定它们的距离和/或金属度。我们展示了红化和拥挤是如何影响我们的模拟的,并强调了在根据 LCs 推算脉动参数(光度振幅、平均星等)时考虑这些影响的重要性,特别是如果我们的目标是通过观测隆起的 RRL 来探索隆起的另一侧的话。本研究中讨论的模拟是为了支持巡天进度优化委员会观测这一重要天区的决定而进行的,因为最近才决定将凸起部分列为 LSST 主巡天的目标。
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