"660" . "The Solar Eclipse of 2006 and the Origin of Raylike Features in the White-Light Corona"@cs . . . "Mouette, J." . "Sheeley, N. R." . "26210" . "RIV/00216305:26210/07:PU66110" . "11"^^ . . . . . . "3" . "The Solar Eclipse of 2006 and the Origin of Raylike Features in the White-Light Corona" . "The Solar Eclipse of 2006 and the Origin of Raylike Features in the White-Light Corona" . "ASTROPHYSICAL JOURNAL" . "6"^^ . "Koutchmy, Serge" . "Solar eclipse observations have long suggested that the white-light corona is permeated by long fine rays. By comparing photographs of the 2006 March 29 total eclipse with current-free extrapolations of photospheric field measurements and with images from the Solar and Heliospheric Observatory (SOHO), we deduce that the bulk of these linear features fall into three categories: (1) polar and low-latitude plumes that overlie small magnetic bipoles inside coronal holes, (2) helmet streamer rays that overlie large loop arcades and separate coronal holes of opposite polarity, and (3) %22pseudostreamer%22 rays that overlie twin loop arcades and separate coronal holes of the same polarity. The helmet streamer rays extend outward to form the plasma sheet component of the slow solar wind, while the plumes and pseudostreamers contribute to the fast solar wind. In all three cases, the rays are formed by magnetic reconnection between closed coronal loops and adjacent open field lines. Although seemingly ubiquitous wh"@cs . . . "The Solar Eclipse of 2006 and the Origin of Raylike Features in the White-Light Corona"@cs . . "Solar eclipse observations have long suggested that the white-light corona is permeated by long fine rays. By comparing photographs of the 2006 March 29 total eclipse with current-free extrapolations of photospheric field measurements and with images from the Solar and Heliospheric Observatory (SOHO), we deduce that the bulk of these linear features fall into three categories: (1) polar and low-latitude plumes that overlie small magnetic bipoles inside coronal holes, (2) helmet streamer rays that overlie large loop arcades and separate coronal holes of opposite polarity, and (3) %22pseudostreamer%22 rays that overlie twin loop arcades and separate coronal holes of the same polarity. The helmet streamer rays extend outward to form the plasma sheet component of the slow solar wind, while the plumes and pseudostreamers contribute to the fast solar wind. In all three cases, the rays are formed by magnetic reconnection between closed coronal loops and adjacent open field lines. Although seemingly ubiquitous wh"@en . "Druckm\u00FCller, Miloslav" . . . "1"^^ . "The Solar Eclipse of 2006 and the Origin of Raylike Features in the White-Light Corona"@en . "Biersteker, T. J." . "RIV/00216305:26210/07:PU66110!RIV07-MSM-26210___" . "The Solar Eclipse of 2006 and the Origin of Raylike Features in the White-Light Corona"@en . "0004-637X" . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "882-892" . "S" . "Solar eclipse observations have long suggested that the white-light corona is permeated by long fine rays. By comparing photographs of the 2006 March 29 total eclipse with current-free extrapolations of photospheric field measurements and with images from the Solar and Heliospheric Observatory (SOHO), we deduce that the bulk of these linear features fall into three categories: (1) polar and low-latitude plumes that overlie small magnetic bipoles inside coronal holes, (2) helmet streamer rays that overlie large loop arcades and separate coronal holes of opposite polarity, and (3) %22pseudostreamer%22 rays that overlie twin loop arcades and separate coronal holes of the same polarity. The helmet streamer rays extend outward to form the plasma sheet component of the slow solar wind, while the plumes and pseudostreamers contribute to the fast solar wind. In all three cases, the rays are formed by magnetic reconnection between closed coronal loops and adjacent open field lines. Although seemingly ubiquitous wh" . "450909" . "[865E2860DE3A]" . "solar streemer"@en . "Wang, Y. M." .