D. Greggio, D. Magrin, M. Munari, M. Zusi, R. Ragazzoni, G. Cremonese, S. Debei, E. Friso, V. Della Corte, P. Palumbo, H. Hoffmann, R. Jaumann, H. Michaelis, N. Schmitz, P. Schipani, L. Lara
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引用次数: 3
摘要
欧洲航天局(ESA)的JUICE(木星冰冷卫星探测器)卫星致力于对木星及其卫星的详细研究。在整个仪器套件中,JANUS (Jovis, Amorum ac Natorum Undique Scrutator)是JUICE设计用于可见光成像的相机系统。它将对木卫三、木卫四和木卫二进行深入研究,并探索木星系统和木星本身的大部分地区,在木卫三的情况下,以400米/像素的分辨率对卫星进行全球测绘。为了满足JANUS的科学目标,选择的光学设计是一个离轴配置的三镜消像散系统。为了确保获得的对比度足够高,能够观察到卫星表面的特征,我们还对望远镜进行了初步的杂散光分析。我们在这里提供了一个简短的描述,光学设计,我们提出的程序,以评估杂散光预期在绘图阶段的表面的Ganymede。我们还利用第一次模拟的结果来优化挡板的设计。
Optical design and stray light analysis for the JANUS camera of the JUICE space mission
The JUICE (JUpiter ICy moons Explorer) satellite of the European Space Agency (ESA) is dedicated to the detailed study of Jupiter and its moons. Among the whole instrument suite, JANUS (Jovis, Amorum ac Natorum Undique Scrutator) is the camera system of JUICE designed for imaging at visible wavelengths. It will conduct an in-depth study of Ganymede, Callisto and Europa, and explore most of the Jovian system and Jupiter itself, performing, in the case of Ganymede, a global mapping of the satellite with a resolution of 400 m/px. The optical design chosen to meet the scientific goals of JANUS is a three mirror anastigmatic system in an off-axis configuration. To ensure that the achieved contrast is high enough to observe the features on the surface of the satellites, we also performed a preliminary stray light analysis of the telescope. We provide here a short description of the optical design and we present the procedure adopted to evaluate the stray-light expected during the mapping phase of the surface of Ganymede. We also use the results obtained from the first run of simulations to optimize the baffle design.
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