First detection of acoustic-like flux in the middle solar corona

V. Andretta (1); L. Abbo (2); G. Jerse (3); R. Lionello (4); G. Naletto (5; 6); G. Russano (1); D. Spadaro (7); M. Stangalini (8); R. Susino (2); M. Uslenghi (9); R. Ventura (7); A. Bemporad (2); Y. De Leo (7; 10); S. Farina (9); G. Nistic\`o (11); M. Romoli (12; 13); Th. Straus (1); D. Telloni (2); L. Teriaca (14); A. Burtovoi (12; 2); V. Da Deppo (6); S. Fineschi (2); F. Frassati (2); M. Giarrusso (7); C. Grimani (15; 16); P. Heinzel (17); F. Landini (2); D. Moses (18); G. Nicolini (2); M. Pancrazzi (2); C. Sasso (1) ((1) INAF - Osservatorio Astronomico di Capodimonte; Naples; Italy; (2) INAF - Osservatorio Astrofisico di Torino; Turin; Italy; (3) INAF - Osservatorio Astronomico di Trieste; Trieste; Italy; (4) Predictive Science Inc.; San Diego; USA; (5) Universit\`a di Padova - Dip. Fisica e Astronomia "Galileo Galilei"; Padua; Italy; (6) CNR - Istituto di Fotonica e Nanotecnologie; Padua; Italy; (7) INAF - Osservatorio Astrofisico di Catania; Catania; Italy; (8) Agenzia Spaziale Italiana; Rome; Italy; (9) INAF - Istituto di Astrofisica Spaziale e Fisica Cosmica; Milan; Italy; (10) Institute of Physics; University of Graz; Graz; Austria; (11) Universit\`a della Calabria - Dip. Fisica; Italy; (12) Universit\`a di Firenze - Dip. Fisica e Astronomia; Florence; Italy; (13) INAF - Osservatorio Astrofisico di Arcetri; Florence; Italy; (14) Max-Planck-Institut f\"ur Sonnensystemforschung; G\"ottingen; Germany; (15) Universit\`a di Urbino "Carlo Bo" - DiSPeA; Urbino; Italy; (16) INFN - Sez. Firenze; Florence; Italy; (17) Astronomical Institute of the Czech Academy of Sciences; Ondrejov; Czech Republic; (18) NASA HQ; Washington; USA)

arXiv:2507.13487·astro-ph.SR·September 17, 2025

First detection of acoustic-like flux in the middle solar corona

V. Andretta (1), L. Abbo (2), G. Jerse (3), R. Lionello (4), G. Naletto (5, 6), G. Russano (1), D. Spadaro (7), M. Stangalini (8), R. Susino (2), M. Uslenghi (9), R. Ventura (7), A. Bemporad (2), Y. De Leo (7, 10), S. Farina (9), G. Nistic\`o (11), M. Romoli (12, 13)

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TL;DR

This study reports the first detection of acoustic-like, compressible density fluctuations in the middle solar corona, with properties consistent with p-mode oscillations, using high-resolution observations from Solar Orbiter's Metis coronagraph.

Contribution

It provides the first observational evidence of acoustic-like flux in the middle solar corona, linking lower atmospheric p-modes to coronal density fluctuations.

Findings

01

Detected periodic density fluctuations up to 2.5 solar radii.

02

Fluctuations have propagation speeds of 150-450 km/s.

03

Power spectra show excess power at 2-7 mHz, peaking at 3 and 5 mHz.

Abstract

Waves are thought to play a significant role in the heating of the solar atmosphere and the acceleration of the wind. Among the many types of waves observed in the Sun, the so-called p-modes with a 3 mHz frequency peak dominate the lower atmosphere. In the presence of magnetic fields, these waves can be converted into magnetohydrodynamic modes, which then leak into the corona through magnetic conduits. High-resolution off-limb observations have indeed revealed signatures of ubiquitous and global 3 mHz oscillations in the corona, although limited to low heights and to incompressible modes. We present high-cadence, high-resolution observations of the corona in the range 1.7 - 3.6 solar radii taken in broad-band 580-640 nm visible light by the Metis coronagraph aboard Solar Orbiter. These observations were designed to investigate density fluctuations in the middle corona. The data were…

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