On the Predominance of the Radial Component of the Magnetic Field in the Solar Corona

Citations Over TimeTop 13% of 2001 papers

Abstract

Polarimetric measurements of the corona out to 2 R☉ in the Fe XIII 10747 Å line, the strongest of the iron forbidden lines, are placed for the first time in the context of spatially resolved images of coronal density structures. These measurements, which are the only tool currently available to yield the direction of the magnetic field, date to 1980, the only year when they were available with polarized brightness images of the corona. Through this comparison, the observed predominance of the radial component of the coronal magnetic field, discovered over three decades ago from eclipse observations and established systematically by Arnaud, is shown to point to the coexistence of two magnetic field components in the corona: a nonradial field associated with the large-scale structures known as streamers and a more pervasive radial magnetic field. This finding suggests that these two components are the coronal counterparts of the strong- and weak-field components recently observed in the quiet-Sun photospheric field and supported by recent theoretical investigations of the solar dynamo.

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