期刊
PLANETARY AND SPACE SCIENCE
卷 115, 期 -, 页码 77-89出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.pss.2014.12.016
关键词
Mercury's magnetotail; Magnetic reconnection; Magnetic flux ropes; Magnetospheric physics
资金
- NASA [NASW-00002, NAS5-97271]
- Science and Technology Facilities Council Ernest Rutherford Fellowship
- STFC [ST/L004399/1] Funding Source: UKRI
- Science and Technology Facilities Council [ST/L004399/1] Funding Source: researchfish
We report an investigation of magnetic reconnection in Mercury's magnetotail conducted with MESSENGER Magnetometer and Fast Imaging Plasma Spectrometer measurements during seven hot seasons when the periapsis of the spacecraft orbit is on Mercury's dayside. Flux ropes are formed in the cross-tail current sheet by reconnection. We have analyzed 49 flux ropes observed between 1.7 R-M and 2.8 R-M (where R-M is Mercury's radius, or 2440 km) down the tail from the center of the planet, for which minimum variance analysis indicates that the spacecraft passed near the central axis of the structure. An average Alfven speed of 465 km s measured in the plasma sheet surrounding these flux ropes. Under the assumption that the flux ropes moved at the local Alfven speed, the mean duration of 0.74 +/- 0.15 s determined for these structures implies a typical diameter of similar to 345 km, or similar to 0.14 Rm, which is comparable to a proton gyroradius in the plasma sheet of similar to 380 km. We successfully fit the magnetic signatures of 16 flux ropes to a force-free model. The mean radius and core field determined in this manner were similar to 450 km, or similar to 0.18 R-M, and similar to 40 nT, respectively. A superposed epoch analysis of the magnetic field during these events shows variations similar to those observed at Earth, including the presence of a post-plasmoid plasma sheet, filled with disconnected magnetic flux, but the timescales are 40 times shorter at Mercury. The results of this flux rope survey indicate that intense magnetic reconnection occurs frequently in the cross-tail current layer of this small but extremely dynamic magnetosphere. (C) 2015 Elsevier Ltd. All rights reserved.
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