紫外线亮星目录:使用混合 IUE-Kurucz 光谱进行紫外线掩星测量、行星照明建模和天图分析的策略

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS
Michael A. Velez, Kurt D. Retherford, Vincent Hue, Joshua A. Kammer, Tracy M. Becker, G. Randall Gladstone, Michael W. Davis, Thomas K. Greathouse, Philippa M. Molyneux, Shawn M. Brooks, Ujjwal Raut, Maarten H. Versteeg
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引用次数: 0

摘要

紫外线分光仪是一种强大的方法,可通过反射测量研究行星表面成分,通过恒星/太阳掩星研究大气成分,通过其他行星天体的凌日以及气辉和极光发射的直接成像研究大气成分。欧空局的木星冰月探测器和美国宇航局的欧罗巴号快船任务所搭载的下一代紫外线摄谱仪(UVS)将在 2030 年代初对木星及其卫星进行此类测量。这项工作汇编了一份详细的紫外恒星目录,命名为紫外明亮恒星目录(CUBS),其中包括波长范围在 50-210 nm 的高强度目标,其应用与行星光谱学有关。这些应用包括:(1)规划和模拟掩星,包括校准测量;(2)对主要由天空照亮的暗夜行星表面的星光照明进行建模;(3)研究由 Juno-UVS 等现有数据集绘制的银河系漫射紫外光的来源。CUBS 包括国际紫外线探测器(IUE)的观测数据和来自 SIMBAD 数据库的额外信息。我们利用内插的 Kurucz 模型(分辨率为 1 nm)和 IUE 光谱(如有),为近 90,000 个目标构建了 0.1 nm 分辨率的模型光谱。CUBS 还包括对 Kurucz 模型和 IUE 数据之间一致性的稳健检查。我们还介绍了一种工具,可以利用我们的星表来确定恒星掩星观测的最佳候选者,适用于任何紫外仪器。我们报告了制作 CUBS 的方法,并讨论了在正在进行和即将进行的行星任务中实施 CUBS 的计划。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Catalog of Ultraviolet Bright Stars: Strategies for UV Occultation Measurements, Planetary Illumination Modeling, and Sky Map Analyses Using Hybrid IUE-Kurucz Spectra
Ultraviolet spectroscopy is a powerful method to study planetary surface composition through reflectance measurements, atmospheric composition through stellar/solar occultations, transits of other planetary bodies, and direct imaging of airglow and auroral emissions. The next generation of ultraviolet spectrographs (UVS) on board ESA’s Jupiter Icy Moons Explorer and NASA’s Europa Clipper missions will perform such measurements of Jupiter and its moons in the early 2030s. This work presents a compilation of a detailed UV stellar catalog, named Catalog of Ultraviolet Bright Stars (CUBS), of targets with high intensity in the 50–210 nm wavelength range with applications relevant to planetary spectroscopy. These applications include (1) planning and simulating occultations, including calibration measurements; (2) modeling starlight illumination of dark, nightside planetary surfaces primarily lit by the sky; and (3) studying the origin of diffuse Galactic UV light as mapped by existing data sets from Juno-UVS and others. CUBS includes observations from the International Ultraviolet Explorer (IUE) and additional information from the SIMBAD database. We have constructed model spectra at 0.1 nm resolution for almost 90,000 targets using interpolated Kurucz models (which have a resolution of 1 nm) and, when available, IUE spectra. CUBS also includes robust checks for agreement between the Kurucz models and the IUE data. We also present a tool for which our catalog can be used to identify the best candidates for stellar occultation observations, with applications for any UV instrument. We report on our methods for producing CUBS and discuss plans for its implementation during ongoing and upcoming planetary missions.
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来源期刊
The Planetary Science Journal
The Planetary Science Journal Earth and Planetary Sciences-Geophysics
CiteScore
5.20
自引率
0.00%
发文量
249
审稿时长
15 weeks
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