Survey of large-amplitude flapping motions in the midtail current sheet

Abstract. We surveyed fast current sheet crossings (flapping motions) over the distance range 10–30 RE in the magnetotail covered by the Geotail spacecraft. Since the local tilts of these dynamic sheets are large and variable in these events, we compare three different methods of evaluating current sheet normals using 4-s/c Cluster data and define the success criteria for the single-spacecraft-based method (MVA) to obtain the reliable results. Then, after identifying more than ~1100 fast CS crossings over a 3-year period of Geotail observations in 1997–1999, we address their parameters, spatial distribution and activity dependence. We confirm that over the entire distance covered and LT bins, fast crossings have considerable tilts in the YZ plane (from estimated MVA normals) which show a preferential appearance of one (YZ kink-like) mode that is responsible for these severe current sheet perturbations. Their occurrence is highly inhomogeneous; it sharply increases with radial distance and has a peak in the tail center (with some duskward shift), resembling the occurrence of the BBFs, although there is no one-to-one local correspondence between these two phenomena. The crossing durations typically spread around 1 min and decrease significantly where the high-speed flows are registered. Based on an AE index superposed epoch study, the flapping motions prefer to appear during the substorm expansion phase, although a considerable number of events without any electrojet and auroral activity were also observed. We also present statistical distributions of other parameters and briefly discuss what could be possible mechanisms to generate the flapping motions.

[1]  M. Fujimoto,et al.  Reproducing the bipolar magnetic signature at the jet leading edge by three‐dimensional reconnection with nonzero guide field , 2006 .

[2]  Wolfgang Baumjohann,et al.  Double Star/Cluster observation of neutral sheet oscillations on 5 August 2004 , 2005 .

[3]  Wolfgang Baumjohann,et al.  Electric current and magnetic field geometry in flapping magnetotail current sheets , 2005 .

[4]  I. Golovchanskaya,et al.  On the identification of plasma sheet flapping waves observed by Cluster , 2005 .

[5]  K. Glassmeier,et al.  Flow burst-induced large-scale plasma sheet oscillation , 2004 .

[6]  T. Horbury,et al.  Four‐point discontinuity observations using Cluster magnetic field data: A statistical survey , 2004 .

[7]  B. Rogers,et al.  A model of the bifurcated current sheet: 2. Flapping motions , 2004 .

[8]  M. Dunlop,et al.  Four-spacecraft determination of magnetopause orientation, motion and thickness: comparison with results from single-spacecraft methods , 2004 .

[9]  Wolfgang Baumjohann,et al.  Orientation and propagation of current sheet oscillations , 2004 .

[10]  N. Tsyganenko,et al.  Global shape of the magnetotail current sheet as derived from Geotail and Polar data , 2004 .

[11]  H. Karimabadi,et al.  Ion-ion kink instability in the magnetotail: 2. Three-dimensional full particle and hybrid simulations and comparison with observations , 2003 .

[12]  M. Sitnov,et al.  A model of the bifurcated current sheet , 2003 .

[13]  K. Glassmeier,et al.  Kink mode oscillation of the current sheet , 2003 .

[14]  K. Glassmeier,et al.  A wavy twisted neutral sheet observed by CLUSTER , 2002 .

[15]  Wolfgang Baumjohann,et al.  Rapid flux transport in the central plasma sheet , 2001 .

[16]  V. Angelopoulos,et al.  Current sheet measurements within a flapping plasma sheet , 1998 .

[17]  Rumi Nakamura,et al.  Structure and dynamics of magnetic reconnection for substorm onsets with Geotail observations , 1998 .

[18]  G. Chanteur Spatial Interpolation for Four Spacecraft: Theory , 1998 .

[19]  B. Sonnerup,et al.  Minimum and Maximum Variance Analysis , 1998 .

[20]  Wolfgang Baumjohann,et al.  Neutral sheet oscillations at substorm onset , 1995 .

[21]  C. Russell,et al.  Statistical characteristics of bursty bulk flow events , 1994 .

[22]  Wolfgang Baumjohann,et al.  Characteristics of high‐speed ion flows in the plasma sheet , 1990 .

[23]  T. Nakagawa,et al.  Southward magnetic field in the neutral sheet produced by wavy motions propagating in the dawn‐dusk direction , 1989 .

[24]  C. Russell,et al.  The near‐Earth cross‐tail current sheet: Detailed ISEE 1 and 2 case studies , 1986 .

[25]  E. W. Hones,et al.  Multiple crossings of a very thin plasma sheet in the Earth's magnetotail , 1981 .

[26]  C. Meng,et al.  Wavy nature of the magnetotail neutral sheet , 1978 .

[27]  T. Tsutomu,et al.  Flapping motions of the tail plasma sheet induced by the interplanetary magnetic field variations , 1976 .

[28]  T. Speiser,et al.  The neutral sheet in the geomagnetic tail - Its motion, equivalent currents, and field line connection through it. , 1967 .