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arxiv: 1009.4795 · v1 · pith:Z7TD5FSNnew · submitted 2010-09-24 · 🌌 astro-ph.SR

Detection of large acoustic energy flux in the solar atmosphere

N. Bello Gonz\'alez (1) , M. Franz (1) , V. Mart\'inez Pillet (3) , J.A. Bonet (3) , S.K. Solanki (2 , 7) , J.C. del Toro Iniesta (4) , W. Schmidt (1)
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A. Gandorfer (2) V. Domingo (4) P. Barthol (2) T. Berkefeld (1) M. Kn\"olker (6) ((1) Kiepenheuer-Institut f\"ur Sonnenphysik Sch\"oneckstr. 6 79110 Freiburg Germany (2) Max Planck Institut f\"ur Sonnensystemforschung Max-Planck-Strasse 2 (3) Instituto de Astrof\'isica de Canarias (4) Instituto de Astrof\'isica de Andaluc\'ia (CSIC) (5) Grupo de Astronom\'ia y Ciencias del Espacio Universidad de Valencia (6) High Altitude Observatory National Center for Atmospheric Research (7) School of Space Research Kyung Hee University)
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classification 🌌 astro-ph.SR
keywords energyfluxacousticchromospherefoundgranuleslaneswaves
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We study the energy flux carried by acoustic waves excited by convective motions at sub-photospheric levels. The analysis of high-resolution spectropolarimetric data taken with IMaX/Sunrise provides a total energy flux of ~ 6400--7700 Wm$^{-2}$ at a height of ~ 250 km in the 5.2-10 mHz range, i.e. at least twice the largest energy flux found in previous works. Our estimate lies within a factor of 2 of the energy flux needed to balance radiative losses from the chromosphere according to Anderson & Athay (1989) and revives interest in acoustic waves for transporting energy to the chromosphere. The acoustic flux is mainly found in the intergranular lanes but also in small rapidly-evolving granules and at the bright borders, forming dark dots and lanes of splitting granules.

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