Observation of an Extremely Large-Density Heliospheric Plasma Sheet Compressed by an Interplanetary Shock at 1 AU |
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Authors: | Chin-Chun Wu Kan Liou R. P. Lepping Angelos Vourlidas Simon Plunkett Dennis Socker S. T. Wu |
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Affiliation: | 1.Naval Research Laboratory,Washington,USA;2.Johns Hopkins Applied Physics Laboratory,Maryland,USA;3.NASA/GSFC (Ret.),Maryland,USA;4.IAASARS,Observatory of Athens,Athens,Greece;5.CSPAR,University of Alabama,Alabama,USA |
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Abstract: | At 11:46 UT on 9 September 2011, the Wind spacecraft encountered an interplanetary (IP) fast-forward shock. The shock was followed almost immediately by a short-duration (~?35 minutes) extremely dense pulse (with a peak ~?94 cm?3). The pulse induced an extremely large positive impulse (SYM-H = 74 nT and Dst = 48 nT) on the ground. A close examination of other in situ parameters from Wind shows that the density pulse was associated with i) a spike in the plasma (upbeta) (ratio of thermal to magnetic pressure), ii) multiple sign changes in the azimuthal component of the magnetic field ((B_{phi})), iii) a depressed magnetic field magnitude, iv) a small radial component of the magnetic field, and v) a large (>?90°) change in the suprathermal (~?255 eV) electron pitch angle across the density pulse. We conclude that the density pulse is associated with the heliospheric plasma sheet (HPS). The thickness of the HPS is estimated to be ({sim},8.2times10^{5} mbox{km}). The HPS density peak is about five times the value of a medium-sized density peak inside the HPS (~?18 cm?3) at 1 AU. Our global three-dimensional magnetohydrodynamic simulation results (Wu et al. in J. Geophys. Res. 212, 1839, 2016) suggest that the extremely large density pulse may be the result of the compression of the HPS by an IP shock crossing or an interaction between an interplanetary shock and a corotating interaction region. |
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