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Post Info TOPIC: SUNRISE balloon


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Title: The second flight of the SUNRISE balloon-borne solar observatory: overview of instrument updates, the flight, the data and first results
Author: S. K. Solanki, T. L. Riethmüller, P. Barthol, S. Danilovic, W. Deutsch, H. P. Doerr, A. Feller, A. Gandorfer, D. Germerott, L. Gizon, B. Grauf, K. Heerlein, J. Hirzberger, M. Kolleck, A. Lagg, R. Meller, G. Tomasch, M. van Noort, J. Blanco Rodríguez, J. L. Gasent Blesa, M. Balaguer Jiménez, J. C. Del Toro Iniesta, A. C. López Jiménez, D. Orozco Suárez, T. Berkefeld, C. Halbgewachs, W. Schmidt, A. Alvarez-Herrero, L. Sabau-Graziati, I. Pérez Grande, V. Martínez Pillet, G. Card, R. Centeno, M. Knölker, A. Lecinski

The SUNRISE balloon-borne solar observatory, consisting of a 1~m aperture telescope that provided a stabilized image to a UV filter imager and an imaging vector polarimeter, carried out its second science flight in June 2013. It provided observations of parts of active regions at high spatial resolution, including the first high-resolution images in the Mg ii k line. The obtained data are of very high quality, with the best UV images reaching the diffraction limit of the telescope at 3000\AA\ after Multi-Frame Blind Deconvolution reconstruction accounting for phase-diversity information. Here a brief update is given of the instruments and the data reduction techniques, which includes an inversion of the polarimetric data. Mainly those aspects that evolved compared with the first flight are described. A tabular overview of the observations is given. In addition, an example time series of a part of the emerging active region NOAA AR 11768 observed relatively close to disk centre is described and discussed in some detail. The observations cover the pores in the trailing polarity of the active region, as well as the polarity inversion line where flux emergence was ongoing and a small flare-like brightening occurred in the course of the time series. The pores are found to contain magnetic field strengths ranging up to 2500~G and, while large pores are clearly darker and cooler than the quiet Sun in all layers of the photosphere, the temperature and brightness of small pores approach or even exceed those of the quiet Sun in the upper photosphere.

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Posts: 131433
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The Sun is a bubbling mass. Packages of gas rise and sink, lending the sun its grainy surface structure, its granulation. Dark spots appear and disappear, clouds of matter dart up -- and behind the whole thing are the magnetic fields, the engines of it all. The SUNRISE balloon-borne telescope, a collaborative project between the Max Planck Institute for Solar System Research in Katlenburg-Lindau and partners in Germany, Spain and the USA, has now delivered images that show the complex interplay on the solar surface to a level of detail never before achieved.
The largest solar telescope ever to have left Earth was launched from the ESRANGE Space Centre in Kiruna, northern Sweden, on June 8, 2009. The total equipment weighed in at more than six tons on launch. Carried by a gigantic helium balloon with a capacity of a million cubic metres and a diameter of around 130 metres, SUNRISE reached a cruising altitude of 37 kilometres above the Earth's surface.

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