The Europa Imaging System (EIS) Investigation.

IF 9.1 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Space Science Reviews Pub Date : 2024-01-01 Epub Date: 2024-12-04 DOI:10.1007/s11214-024-01115-9

E P Turtle, A S McEwen, G W Patterson, C M Ernst, C M Elder, K A Slack, S E Hawkins, J McDermott, H Meyer, R DeMajistre, R Espiritu, H Seifert, J Niewola, M Bland, M Becker, J Centurelli, G C Collins, P Corlies, H Darlington, I J Daubar, C Derr, C Detelich, E Donald, W Edens, L Fletcher, C Gardner, F Graham, C J Hansen, C Haslebacher, A G Hayes, D Humm, T A Hurford, R L Kirk, N Kutsop, W J Lees, D Lewis, S London, A Magner, M Mills, A C Barr Mlinar, F Morgan, F Nimmo, A Ocasio Milanes, S Osterman, C B Phillips, A Pommerol, L Prockter, L C Quick, G Robbins, J M Soderblom, B Stewart, A Stickle, S S Sutton, N Thomas, I Torres, O J Tucker, R B Van Auken, K A Wilk

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Abstract

The Europa Imaging System (EIS) consists of a Narrow-Angle Camera (NAC) and a Wide-Angle Camera (WAC) that are designed to work together to address high-priority science objectives regarding Europa's geology, composition, and the nature of its ice shell. EIS accommodates variable geometry and illumination during rapid, low-altitude flybys with both framing and pushbroom imaging capability using rapid-readout, 8-megapixel (4k × 2k) detectors. Color observations are acquired using pushbroom imaging with up to six broadband filters. The data processing units (DPUs) perform digital time delay integration (TDI) to enhance signal-to-noise ratios and use readout strategies to measure and correct spacecraft jitter. The NAC has a 2.3° × 1.2° field of view (FOV) with a 10-μrad instantaneous FOV (IFOV), thus achieving 0.5-m pixel scale over a swath that is 2 km wide and several km long from a range of 50 km. The NAC is mounted on a 2-axis gimbal, ±30° cross- and along-track, that enables independent targeting and near-global (≥90%) mapping of Europa at ≤100-m pixel scale (to date, only ∼15% of Europa has been imaged at ≤900 m/pixel), as well as stereo imaging from as close as 50-km altitude to generate digital terrain models (DTMs) with ≤4-m ground sample distance (GSD) and ≤0.5-m vertical precision. The NAC will also perform observations at long range to search for potential erupting plumes, achieving 10-km pixel scale at a distance of one million kilometers. The WAC has a 48° × 24° FOV with a 218-μrad IFOV, achieving 11-m pixel scale at the center of a 44-km-wide swath from a range of 50 km, and generating DTMs with 32-m GSD and ≤4-m vertical precision. The WAC is designed to acquire three-line pushbroom stereo and color swaths along flyby ground-tracks.

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木卫二成像系统（EIS）调查。

木卫二成像系统（EIS）由一个窄角相机（NAC）和一个广角相机（WAC）组成，它们被设计成一起工作，以解决有关木卫二地质、成分和冰壳性质的高优先级科学目标。EIS在快速低空飞行期间适应可变几何形状和照明，使用快速读出的800万像素（4k × 2k）探测器，具有分幅和推扫成像能力。彩色观测是使用带有多达6个宽带滤光片的推进式成像获得的。数据处理单元（dpu）执行数字时延集成（TDI）来提高信噪比，并使用读出策略来测量和纠正航天器抖动。NAC具有2.3°× 1.2°视场（FOV）和10 μrad瞬时FOV (IFOV)，因此在50公里范围内，在2公里宽和数公里长的带状上实现0.5 m像素尺度。NAC安装在一个2轴云台上，±30°交叉和沿轨道，能够独立瞄准和近全球（≥90%）绘制≤100米像素尺度的木卫二（迄今为止，只有约15%的木卫二以≤900米/像素的速度成像），以及近50公里高度的立体成像，以生成数字地形模型（dtm），其地面样本距离(GSD)≤4米，垂直精度≤0.5米。NAC还将进行远程观测，以寻找潜在的喷发羽流，在100万公里的距离上达到10公里的像素尺度。WAC具有48°× 24°的视场和218 μrad的视场，在50 km范围内的44 km宽的条带中心实现11 m的像元尺度，生成32 m GSD和≤4 m垂直精度的dtm。WAC的设计目的是获取沿飞掠地面轨道的三线立体和彩色图像。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Space Science Reviews 地学天文-天文与天体物理

CiteScore

19.70

自引率

3.90%

发文量

审稿时长

4-8 weeks

期刊介绍： Space Science Reviews (SSRv) stands as an international journal dedicated to scientific space research, offering a contemporary synthesis across various branches of space exploration. Emphasizing scientific outcomes and instruments, SSRv spans astrophysics, physics of planetary systems, solar physics, and the physics of magnetospheres & interplanetary matter. Beyond Topical Collections and invited Review Articles, Space Science Reviews welcomes unsolicited Review Articles and Special Communications. The latter encompass papers related to a prior topical volume/collection, report-type papers, or timely contributions addressing a robust combination of space science and technology. These papers succinctly summarize both the science and technology aspects of instruments or missions in a single publication.

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