Radial evolution of sunward strahl electrons in the inner heliosphere
Autor: | Allan R. Macneil, Christopher J. Owen, Mike Lockwood, Mathew J. Owens, Štěpán Štverák |
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Jazyk: | angličtina |
Rok vydání: | 2020 |
Předmět: |
Physics
010504 meteorology & atmospheric sciences Scattering Astronomy and Astrophysics Magnetic reconnection Astrophysics 01 natural sciences Magnetic field Solar wind Strahl Space and Planetary Science 0103 physical sciences Physics::Space Physics Astrophysics::Solar and Stellar Astrophysics Pitch angle Astrophysics::Earth and Planetary Astrophysics Interplanetary spaceflight 010303 astronomy & astrophysics Heliosphere 0105 earth and related environmental sciences |
ISSN: | 0038-0938 |
Popis: | The heliospheric magnetic field (HMF) exhibits local inversions, in which the field apparently “bends back” upon itself. Candidate mechanisms to produce these inversions include various configurations of upstream interchange reconnection; either in the heliosphere, or in the corona where the solar wind is formed. Explaining the source of these inversions, and how they evolve in time and space, is thus an important step towards explaining the origins of the solar wind. Inverted heliospheric magnetic field lines can be identified by the anomalous sunward (i.e. inward) streaming of the typically anti-sunward propagating, field-aligned (or anti-aligned), beam of electrons known as the “strahl”. We test if the pitch angle distribution (PAD) properties of sunward-propagating strahl are different from those of outward strahl. We perform a statistical study of strahl observed by the Helios spacecraft, over heliocentric distances spanning $\approx 0.3$≈0.3 – 1 AU. We find that sunward strahl PADs are broader and less intense than their outward directed counterparts; particularly at distances 0.3 – 0.75 AU. This is consistent with sunward strahl being subject to additional, path-length dependent, scattering in comparison to outward strahl. We conclude that the longer and more variable path from the Sun to the spacecraft, along inverted magnetic field, leads to this additional scattering. The results also suggest that the relative importance of scattering along this additional path length drops off with heliocentric distance. These results can be explained by a relatively simple, constant-rate, scattering process. |
Databáze: | OpenAIRE |
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