Staring at the Sun with the Keck Planet Finder: An Autonomous Solar Calibrator for High Signal-to-noise Sun-as-a-star Spectra

IF 3.3 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
Ryan A. Rubenzahl, Samuel Halverson, Josh Walawender, Grant M. Hill, Andrew W. Howard, Matthew Brown, Evan Ida, Jerez Tehero, Benjamin J. Fulton, Steven R. Gibson, Marc Kassis, Brett Smith, Truman Wold, Joel Payne
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Abstract

Extreme precision radial velocity (EPRV) measurements contend with internal noise (instrumental systematics) and external noise (intrinsic stellar variability) on the road to 10 cm s−1 “exo-Earth” sensitivity. Both of these noise sources are well-probed using “Sun-as-a-star” RVs and cross-instrument comparisons. We built the Solar Calibrator (SoCal), an autonomous system that feeds stable, disk-integrated sunlight to the recently commissioned Keck Planet Finder (KPF) at the W. M. Keck Observatory. With SoCal, KPF acquires signal-to-noise ratio (S/N) ∼ 1200, R = 98,000 optical (445–870 nm) spectra of the Sun in 5 s exposures at unprecedented cadence for an EPRV facility using KPF’s fast readout mode (<16 s between exposures). Daily autonomous operation is achieved by defining an operations loop using state machine logic. Data affected by clouds are automatically flagged using a reliable quality control metric derived from simultaneous irradiance measurements. Comparing solar data across the growing global network of EPRV spectrographs with solar feeds will allow EPRV teams to disentangle internal and external noise sources and benchmark spectrograph performance. To facilitate this, all SoCal data products are immediately available to the public on the Keck Observatory Archive. We compared SoCal RVs to contemporaneous RVs from NEID, the only other immediately public EPRV solar data set. We find agreement at the 30–40 cm s−1 level on timescales of several hours, which is comparable to the combined photon-limited precision. Data from SoCal were also used to assess a detector problem and wavelength calibration inaccuracies associated with KPF during early operations. Long-term SoCal operations will collect upwards of 1000 solar spectra per six-hour day using KPF’s fast readout mode, enabling stellar activity studies at high S/N on our nearest solar-type star.
用凯克行星探测器凝视太阳:用于高信噪比太阳即恒星光谱的自主太阳校准器
极精密径向速度(EPRV)测量在通往 10 cm s-1 "外地球 "灵敏度的道路上要与内部噪声(仪器系统性)和外部噪声(恒星内在变异性)作斗争。利用 "太阳即恒星 "的 RV 和跨仪器比较可以很好地探测这两种噪声源。我们建造了太阳校准器(SoCal),它是一个自主系统,向 W. M. 凯克天文台最近投入使用的凯克行星探测器(KPF)提供稳定的磁盘积分太阳光。利用SoCal,KPF以5秒的曝光时间获取信噪比(S/N)∼1200,R = 98,000的太阳光学(445-870 nm)光谱,对于使用KPF的快速读出模式(曝光间隔16秒)的EPRV设备来说,这种速度是前所未有的。通过使用状态机逻辑定义操作循环,实现了每日自主运行。利用同步辐照度测量得出的可靠质量控制指标,受云层影响的数据会被自动标记。在不断扩大的 EPRV 光谱仪全球网络中,通过太阳馈源对太阳数据进行比较,将使 EPRV 团队能够区分内部和外部噪声源,并对光谱仪的性能进行基准测试。为了便于进行这项工作,所有 SoCal 数据产品都可以立即在凯克天文台档案库中向公众提供。我们将 SoCal RV 与 NEID 的同期 RV 进行了比较,后者是唯一一个立即公开的 EPRV 太阳数据集。我们发现在 30-40 cm s-1 的水平上,两者在几个小时的时间尺度上是一致的,这与光子限制的综合精度相当。来自 SoCal 的数据还被用来评估早期运行期间与 KPF 有关的探测器问题和波长校准误差。SoCal 的长期运行将利用 KPF 的快速读出模式,每天 6 小时收集多达 1000 多条太阳光谱,从而能够对离我们最近的太阳型恒星进行高信噪比的恒星活动研究。
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来源期刊
Publications of the Astronomical Society of the Pacific
Publications of the Astronomical Society of the Pacific 地学天文-天文与天体物理
CiteScore
6.70
自引率
5.70%
发文量
103
审稿时长
4-8 weeks
期刊介绍: The Publications of the Astronomical Society of the Pacific (PASP), the technical journal of the Astronomical Society of the Pacific (ASP), has been published regularly since 1889, and is an integral part of the ASP''s mission to advance the science of astronomy and disseminate astronomical information. The journal provides an outlet for astronomical results of a scientific nature and serves to keep readers in touch with current astronomical research. It contains refereed research and instrumentation articles, invited and contributed reviews, tutorials, and dissertation summaries.
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