The Sunrise Mission

The first science flight of the balloon-borne \Sunrise telescope took place in June 2009 from ESRANGE (near Kiruna/Sweden) to Somerset Island in northern Canada. We describe the scientific aims and mission concept of the project and give an overview and a description of the various hardware componen...

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Published inarXiv.org
Main Authors Barthol, Peter, Gandorfer, Achim, Solanki, Sami K, Schüssler, Manfred, Chares, Bernd, Curdt, Werner, Deutsch, Werner, Feller, Alex, Germerott, Dietmar, Grauf, Bianca, Heerlein, Klaus, Hirzberger, Johann, Kolleck, Martin, Meller, Reinhard, Müller, Reinhard, Riethmüller, Tino L, Tomasch, Georg, Knölker, Michael, Lites, Bruce W, Card, Greg, Elmore, David, Fox, Jack, Lecinski, Alice, Nelson, Peter, Summers, Richard, Watt, Andrew, Valentin Martínez Pillet, Bonet, Jose Antonio, Schmidt, Wolfgang, Berkefeld, Thomas, Title, Alan M, Domingo, Vicente, Jose Luis Gasent Blesa, Jose Carlos del Toro Iniesta, Antonio López Jiménez, Álvarez-Herrero, Alberto, Sabau-Graziati, Lola, Widani, Christoph, Haberler, Peter, Härtel, Klaus, Kampf, Dirk, Levin, Thorsten, Isabel Pérez Grande, Sanz-Andrés, Angel, Schmidt, Elke
Format Paper Journal Article
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 14.09.2010
Subjects
Astronomical instruments
Flight characteristics
Light distribution
Optimization
Physics - Instrumentation and Methods for Astrophysics
Physics - Solar and Stellar Astrophysics
Sunrise
Telemetry
Thermal design
Ultraviolet filters
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Summary:The first science flight of the balloon-borne \Sunrise telescope took place in June 2009 from ESRANGE (near Kiruna/Sweden) to Somerset Island in northern Canada. We describe the scientific aims and mission concept of the project and give an overview and a description of the various hardware components: the 1-m main telescope with its postfocus science instruments (the UV filter imager SuFI and the imaging vector magnetograph IMaX) and support instruments (image stabilizing and light distribution system ISLiD and correlating wavefront sensor CWS), the optomechanical support structure and the instrument mounting concept, the gondola structure and the power, pointing, and telemetry systems, and the general electronics architecture. We also explain the optimization of the structural and thermal design of the complete payload. The preparations for the science flight are described, including AIV and ground calibration of the instruments. The course of events during the science flight is outlined, up to the recovery activities. Finally, the in-flight performance of the instrumentation is briefly summarized.
ISSN:2331-8422
DOI:10.48550/arxiv.1009.2689