Characteristics of active-region sources of solar wind near solar maximum |
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| Authors: | Paulett C Liewer M Neugebauer Thomas Zurbuchen |
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| Institution: | 1.Jet Propulsion Laboratory,California Institute of Technology,Pasadena,U.S.A.;2.Lunar and Planetary Laboratory,University of Arizona,Tucson,U.S.A.;3.Department of Atmospheric, Oceanic and Space Sciences,University of Michigan,Ann Arbor,U.S.A. |
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| Abstract: | Previous studies of the source regions of solar wind sampled by ACE and Ulysses showed that some solar wind originates from open magnetic flux rooted in active regions. These solar wind sources were labeled active-region sources when the open flux was from a strong field region with no corresponding coronal hole in the NSO He 10830 Å synoptic coronal-hole maps. Here, we present a detailed investigation of several of these active-region sources using ACE and Ulysses solar wind data, potential field models of the corona, and solar imaging data. We find that the solar wind from these active-region sources has distinct signatures, e.g., it generally has a higher oxygen charge state than wind associated with helium-10830 Å coronal-hole sources, indicating a hotter source region, consistent with the active region source interpretation. We compare the magnetic topology of the open field lines of these active-region sources with images of the hot corona to search for corresponding features in EUV and soft X-ray images. In most, but not all, cases, a dark area is seen in the EUV and soft X-ray image as for familiar coronal-hole sources. However, in one case no dark area was evident in the soft X-ray images: the magnetic model showed a double dipole coronal structure consistent with the images, both indicating that the footpoints of the open field lines, rooted deep within the active region, lay near the separatrix between loops connecting to two different opposite polarity regions. |
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