First light observations of the solar wind in the outer corona with the   Metis coronagraph

M. Romoli (1; 2); E. Antonucci (3); V. Andretta (3); G.E. Capuano; (4; 5); V. Da Deppo (6); Y. De Leo (7; 4); C. Downs (8); S. Fineschi; (9); P. Heinzel (10); F. Landini (9); A. Liberatore (11; 9); G. Naletto; (12); G. Nicolini (9); M. Pancrazzi (9); C. Sasso (3); D. Spadaro (5); R.; Susino (9); D. Telloni (9); L. Teriaca (7); M. Uslenghi (13); Y.M. Wang (14),; A. Bemporad (9); G. Capobianco (9); M. Casti (15; 2); M. Fabi (16); F.; Frassati (9); F. Frassetto (6; 2); S. Giordano (9); C. Grimani (16); G.; Jerse (17); E. Magli (18); G. Massone (9); M. Messerotti (17); D. Moses (19),; M.G. Pelizzo (20); P. Romano (5); U. Sch\"uhle (7); A. Slemer (6); M.; Stangalini (21; 2); T. Straus (3); C.A. Volpicelli (9); L. Zangrilli (9),; P. Zuppella (6; 2); L. Abbo (2); F. Auch\'ere (22); R. Aznar Cuadrado (7),; A. Berlicki (23; 10); R. Bruno (24); A. Ciaravella (25); R. D'Amicis (24),; P. Lamy (26); A. Lanzafame (4; 2); A.M. Malvezzi (27); P. Nicolosi (12),; G. Nistic\`o (28); H. Peter (7); C. Plainaki (21; 2); L. Poletto (6); F.; Reale (29; 2); S.K. Solanki (7); L. Strachan (14); G. Tondello (12); K.; Tsinganos (30); M. Velli (31); R. Ventura (5); J.C. Vial (22); J. Woch (7),; G. Zimbardo (28; 2) ((1) University of Firenze; Italy (2) INAF - Associate; Scientist (3) INAF - Astronomical Observatory of Capodimonte; Naples; Italy; (4) University of Catania; Italy (5) INAF - Astrophysical Observatory of; Catania; Italy (6) IFN-CNR; Padova; Italy (7) Max-Planck-Institut f\"ur; Sonnensystemforschung; G\"ottingen; Germany (8) Predictive Science Inc.; San; Diego; California; US (9) INAF - Astrophysical Observatory of Torino; Italy; (10) Astronomical Institute of the Czech Academy of Sciences; Ondrejov; Czech; Republic (11) University of Torino; Italy (12) University of Padova; Italy; (13) INAF - Institute for Space Astrophysics; Cosmic Physics; Milan; Italy; (14) Naval Research Laboratory; Washington DC; US (15) Catholic University of; America; Washington DC; US (16) University of Urbino; Italy (17) INAF -; Astrophysical Observatory of Trieste; Italy (18) Politecnico di Torino (19); NASA HQ; Washington DC; US (20) IEIIT-CNR; Padova; Italy (21) ASI - Agenzia; Spaziale Italiana; Roma; Italy (22) Institut d'Astrophysique Spatiale; Paris,; France (23) University of Wroclaw - Astronomical Institute; Poland (24) INAF; - Institute for Space Astrophysics; Planetology; Rome; Italy (25) INAF -; Astronomical Observatory of Palermo; Italy (26) Laboratoire Atmosph\`eres,; Milieux et Observations Spatiales; Guyancourt; France (27) University of; Pavia; Italy (28) University of Calabria; Italy (29) University of Palermo,; Italy (30) University of Athens; Greece (31) University of California; Los; Angeles; California; US)

arXiv:2106.13344·astro-ph.SR·June 28, 2021

First light observations of the solar wind in the outer corona with the Metis coronagraph

M. Romoli (1, 2), E. Antonucci (3), V. Andretta (3), G.E. Capuano, (4, 5), V. Da Deppo (6), Y. De Leo (7, 4), C. Downs (8), S. Fineschi, (9), P. Heinzel (10), F. Landini (9), A. Liberatore (11, 9), G. Naletto, (12), G. Nicolini (9), M. Pancrazzi (9), C. Sasso (3), D. Spadaro (5)

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TL;DR

This study presents the first high-resolution, simultaneous imaging of the solar corona's outflow velocities using Metis on Solar Orbiter, revealing the transition from slow to fast solar wind during solar minimum.

Contribution

It provides the first HI Ly-alpha images of the extended corona and maps of plasma outflow velocities, enhancing understanding of solar wind acceleration.

Findings

01

Identified a high-density layer where slow wind flows at ~160 km/s.

02

Mapped the transition zone between slow and fast solar wind.

03

First to combine polarized visible light and UV HI Ly-alpha imaging for velocity diagnostics.

Abstract

The investigation of the wind in the solar corona initiated with the observations of the resonantly scattered UV emission of the coronal plasma obtained with UVCS-SOHO, designed to measure the wind outflow speed by applying the Doppler dimming diagnostics. Metis on Solar Orbiter complements the UVCS spectroscopic observations, performed during solar activity cycle 23, by simultaneously imaging the polarized visible light and the HI Ly-alpha corona in order to obtain high-spatial and temporal resolution maps of the outward velocity of the continuously expanding solar atmosphere. The Metis observations, on May 15, 2020, provide the first HI Ly-alpha images of the extended corona and the first instantaneous map of the speed of the coronal plasma outflows during the minimum of solar activity and allow us to identify the layer where the slow wind flow is observed. The polarized visible light…

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