The Sunrise Ultraviolet Spectropolarimeter and Imager: Instrument Description

IF 2.7 3区物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS

Solar Physics Pub Date : 2025-05-15 DOI:10.1007/s11207-025-02471-7

Alex Feller, Achim Gandorfer, Bianca Grauf, Johannes Hölken, Francisco A. Iglesias, Andreas Korpi-Lagg, Tino L. Riethmüller, Jan Staub, German Fernandez-Rico, Juan Sebastián Castellanos Durán, Sami K. Solanki, H. N. Smitha, Kamal Sant, Peter Barthol, Montserrat Bayon Laguna, Melani Bergmann, Jörg Bischoff, Jan Bochmann, Stefan Bruns, Werner Deutsch, Michel Eberhardt, Rainer Enge, Sam Goodyear, Klaus Heerlein, Jan Heinrichs, Dennis Hirche, Stefan Meining, Roland Mende, Sabrina Meyer, Maria Mühlhaus, Marc Ferenc Müller, Markus Monecke, Dietmar Oberdorfer, Ioanna Papagiannaki, Sandeep Ramanath, Michael Vergöhl, Dušan Vukadinović, Stephan Werner, Andreas Zerr, Thomas Berkefeld, Pietro Bernasconi, Yukio Katsukawa, Jose Carlos del Toro Iniesta, Alexander Bell, Michael Carpenter, Alberto Álvarez Herrero, Masahito Kubo, Valentín Martínez Pillet, David Orozco Suárez

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Abstract

The third science flight of the balloon-borne solar observatory Sunrise carries three entirely new post-focus science instruments with spectropolarimetric capabilities, concurrently covering an extended spectral range from the near ultraviolet to the near infrared. Sampling a larger height range, from the low photosphere to the chromosphere, with the sub-arcsecond resolution provided by the 1-m Sunrise telescope, is key in understanding critical small-scale phenomena which energetically couple different layers of the solar atmosphere. The Sunrise UV Spectropolarimeter and Imager (SUSI) operates between 309 nm and 417 nm. A key feature of SUSI is its capability to record up to several hundred spectral lines simultaneously without the harmful effects of the Earth’s atmosphere. The rich SUSI spectra can be exploited in terms of many-line inversions. Another important innovation of the instrument is the synchronized 2D context imaging which allows to numerically correct the spectrograph scans for residual optical aberrations. In this work we describe the main design aspects of SUSI, the instrument characterization and testing, and finally its operation, expected performance and data products.

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日出紫外分光偏振计和成像仪：仪器描述

第三次科学飞行的气球载太阳天文台日出携带三个全新的后聚焦科学仪器与光谱偏振能力，同时覆盖从近紫外到近红外的扩展光谱范围。利用1米Sunrise望远镜提供的亚弧秒分辨率，对从低光球到色球的更大高度范围进行采样，是理解太阳大气不同层能量耦合的关键小尺度现象的关键。日出紫外分光偏振仪和成像仪（SUSI）的工作波长为309 nm至417 nm。SUSI的一个关键特点是它能够同时记录多达数百条光谱线，而不会受到地球大气的有害影响。丰富的SUSI谱可以通过多线反演来利用。该仪器的另一个重要创新是同步二维背景成像，它允许对光谱仪扫描的残余光学像差进行数值校正。在本工作中，我们描述了SUSI的主要设计方面，仪器的特性和测试，最后是它的操作，预期性能和数据产品。

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

Solar Physics 地学天文-天文与天体物理

CiteScore

5.10

自引率

17.90%

发文量

146

审稿时长

1 months

期刊介绍： Solar Physics was founded in 1967 and is the principal journal for the publication of the results of fundamental research on the Sun. The journal treats all aspects of solar physics, ranging from the internal structure of the Sun and its evolution to the outer corona and solar wind in interplanetary space. Papers on solar-terrestrial physics and on stellar research are also published when their results have a direct bearing on our understanding of the Sun.