Astronomy and Astrophysics – Astrophysics
Scientific paper
2002-01-24
Nature 415 (2002) 403-406
Astronomy and Astrophysics
Astrophysics
22 pages and 4 figures
Scientific paper
Magnetic fields play a key role in most astrophysical systems, from the Sun to active galactic nuclei. They can be studied through their effects on atomic energy levels, which produce polarized spectral lines. In particular, anisotropic radiation pumping processes (which send electrons to higher atomic levels) induce population imbalances that are modified by weak magnetic fields. Here we report peculiarly polarized light in the He I 10830-\AA multiplet observed in a coronal filament located at the centre of the solar disk. We show that the polarized light arises from selective absorption from the ground level of the triplet system of helium, and that it implies the presence of magnetic fields of the order of a few gauss that are highly inclined with respect to the solar radius vector. This disproves the common belief that population imbalances in long-lived atomic levels are insignificant in the presence of inclined fields with strengths in the gauss range, and demonstrates the operation of the ground-level Hanle effect in an astrophysical plasma.
Collados Manuel
Landi Degl'Innocenti Egidio
Manso Sainz Rafael
Merenda L.
Trujillo-Bueno Javier
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