Your search keyword '"Kokubun, S."' showing total 30 results

1. The Distant Tail at 200 R(sub E): Comparison Between Geotail Observations and the Results from a Global Magnetohydrodynamic Simulation

Author

Berchem, J, Raeder, J, Ashour-Abdalla, M, Frank, L. A, Paterson, W. R, Ackerson, K. L, Kokubun, S, Yamamoto, T, and Lepping, R. P

Subjects

Geophysics

Abstract

This paper reports a comparison between Geotail observations of plasmas and magnetic fields at 200 R(sub E) in the Earth's magnetotail with results from a time-dependent, global magnetohydrodynamic simulation of the interaction of the solar wind with the magnetosphere. The study focuses on observations from July 7, 1993, during which the Geotail spacecraft crossed the distant tail magnetospheric boundary several times while the interplanetary magnetic field (IMF) was predominantly northward and was marked by slow rotations of its clock angle. Simultaneous IMP 8 observations of solar wind ions and the IMF were used as driving input for the MHD simulation, and the resulting time series were compared directly with those from the Geotail spacecraft. The very good agreement found provided the basis for an investigation of the response of the distant tail associated with the clock angle of the IMF. Results from the simulation show that the stresses imposed by the draping of magnetosheath field lines and the asymmetric removal of magnetic flux tailward of the cusps altered considerably the shape of the distant tail as the solar wind discontinuities convected downstream of Earth. As a result, the cross section of the distant tail was considerably flattened along the direction perpendicular to the IMF clock angle, the direction of the neutral sheet following that of the IMF. The simulation also revealed that the combined action of magnetic reconnection and the slow rotation of the IMF clock angle led to a braiding of the distant tail's magnetic field lines along the axis of the tail, with the plane of the braid lying in the direction of the IMF.

Published

1998

2. Geotail Measurements Compared with the Motions of High-Latitude Auroral Boundaries during Two Substorms

Author

Maynard, N. C, Burke, W. J, Erickson, G. M, Nakamura, M, Mukai, T, Kokubun, S, Yamamoto, T, Jacobsen, B, Egeland, A, Samson, J. C, Weimer, D. R, Reeves, G. D, and Luhr, H

Subjects

Geophysics

Abstract

Geotail plasma and field measurements at -95 R(sub E) are compared with extensive ground-based, near-Earth, and geosynchronous measurements to study relationships between auroral activity and magnetotail dynamics during the expansion phases of two substorms. The studied intervals are representative of intermittent, moderate activity. The behavior of the aurora and the observed effects at Geotail for both events are harmonized by the concept of the activation of near-Earth X lines (NEXL) after substorm onsets, with subsequent discharges of one or more plasmoids down the magnetotail. The plasmoids must be viewed as three-dimensional structures which are spatially limited in the dawn-dusk direction. Also, reconnection at the NEXL must proceed at variable rates on closed magnetic field lines for significant times before beginning to reconnect lobe flux. This implies that the plasma sheet in the near-Earth magnetotail is relatively thick in comparison with an embedded current sheet and that both the NEXL and distant X line can be active simultaneously. Until reconnection at the NEXL engages lobe flux, the distant X line maintains control of the poleward auroral boundary. If the NEXL remains active after reaching the lobe, the auroral boundary can move poleward explosively. The dynamics of high-latitude aurora in the midnight region thus provides a means for monitoring these processes and indicating when significant lobe flux reconnects at the NEXL.

Published

1997

3. ISEE 1 and Geotail observations of low-frequency waves at the magnetopause

Author

Cattell, C, Wygant, J, Mozer, F. S, Okada, T, Tsuruda, K, Kokubun, S, and Yamamoto, T

Subjects

Geophysics

Abstract

Observations of waves at frequencies below approximately 200 Hz obtained near the magnetopause are presented. For one case identified in the ISEE 1 data as a period when steady state reconnection was occurring, there were waves below the lower hybrid frequency with amplitudes up to approximately 7 mV/m. Intense low-frequency waves with amplitudes up to approximately 20 mV/m at the subsolar magnetopause have also been observed by the Geotail electric field instrument. In some cases, large spiky fields were embedded in the waves. The waves observed by ISEE 1 and Geotail were large enough to provide the dissipation required for reconnection to occur.

Published

1995

4. Rotational polarities of sudden impulses in the magnetotail lobe

Author

Kawano, H, Yamamoto, T, Kokubun, S, and Lepping, R. P

Subjects

Geophysics

Abstract

A sudden impulse (SI) is a sudden change in the magnetic field strength which is caused by a change in the solar wind pressure and is observed throughout the magnetosphere. In this report we have examined the rotations of the magnetic field vectors at times of SIs in the magnetotail lobe, by using IMP 6, 7, and 8 magnetometer data. The following properties have been found: (1) at the time of SI the arrowhead of the magnetic vector tends to rotate in one plane; (2) the plane of rotation tends to include the unperturbed magnetic field vector; (3) the plane of rotation tends to be aligned with the radial direction from the magnetotail axis; and (4) the magnetic vectors have a particular rotational polarity: when the plane of rotation is viewed so that the Sun is to the right of the viewed plane and the magnetotail axis is to the bottom, the arrowhead of the vector tends to rotate counterclockwise in this plane. These magnetic vector properties are consistent with those expected when part of an increase in solar wind lateral pressure squeezes the magnetotail axisymmetrically while moving tailward.

Published

1992

5. Survey of transient magnetic field events in the dayside magnetosphere

Author

Kawano, H, Kokubun, S, and Takahashi, K

Subjects

Geophysics

Abstract

Data acquired with AMPTE/CCE are employed to investigate transient magnetic field events (TMFEs) in the dayside magnetosphere. TMFEs are found to occur more frequently near the magnetopause than deep in the magnetosphere, and the amplitude of a TMFE increases as the spacecraft comes closer to the magnetopause. It is inferred that they are generated at the magnetopause. From the MLT dependence of the rotational polarity of the transverse magnetic field perturbation, it is suggested that TMFE structures move longitudinally away from the noon meridian. Latitudinal motion away from the equator is also inferred from the latitudinal dependence of the occurrence rates of the standard and reverse events. The motion of TMFEs is tailward in both azimuthal and north-south directions. It is suggested that TMFEs carry oppositely directed twin field-aligned currents, separated in the direction perpendicular to the direction of motion and having the same current intensity.

Published

1992

6. Radial expansion of the tail current disruption during substorms - A new approach to the substorm onset region

Author

Ohtani, S, Kokubun, S, and Russell, C. T

Subjects

Geophysics

Abstract

A new method is used to examine the radial expansion of the tail current disruption and the substorm onset region. The expansion of the disruption region is specified by examining the time sequence (phase relationship) between the north-south component and the sun-earth component. This method is tested by applying it to the March 6, 1979, event. The phase relationship indicates that the current disruption started on the earthward side of the spacecraft, and expanded tailward past the spacecraft. The method was used for 13 events selected from the ISEE magnetometer data. The results indicate that the current disruption usually starts in the near-earth magnetotail and often within 15 RE from the earth.

Published

1992

7. Magnetic properties of the high-latitude tail boundary - Draping of magnetosheath field lines and tail-aligned current

Author

Ohtani, S and Kokubun, S

Subjects

Geophysics

Abstract

Magnetic properties of the high-latitude tail boundary are examined with IMP 8 magnetometer data. The high-latitude tail boundary separates the tail lobe from the magnetosheath. Magnetic fields are stable in the tail lobe, but very irregular in the magnetosheath. Boundary crossings are marked by the rotation of magnetic components parallel to the boundary plane. The magnetic component normal to the boundary, if any, is very small in comparison to this rotational change. Despite large magnetic fluctuations in the magnetosheath, the magnetosheath-side field orientation is consistent with the draping of the IMF against the magnetotail. The boundary current has a component parallel to the lobe field (tail-aligned current), as well as a circumferential component. The IMF orientation controls the sheath-side B(Y), while the lobe-side field has a more rigid configuration flaring antisunward.

Published

1991

8. IMP 8 magnetic observations of the high-latitude tail boundary - Locations and force balance

Author

Ohtani, S and Kokubun, S

Subjects

Geophysics

Published

1990

9. Field-aligned current signatures in the near-tail region. II - Coupling between the region 1 and the region 2 systems

Author

Ohtani, S, Kokubun, S, Nakamura, R, Elphic, R. C, Russell, C. T, and Baker, D. N

Subjects

Geophysics

Abstract

The development of the substorm-associated current signature in the near magnetotail region is investigated on the basis of ground magnetometer, satellite magnetic field, and energetic particle data collected during the March 28, 1979 substorm event. It is shown that the development of the region 1 and the region 2 systems during substorms should be viewed in terms of the formation of a new current system in the near-tail system, rather than merely an enhancement in the current intensity of preexisting systems. Experimental data suggest that the region 2 system is as important as the region 1 system and must be taken into account. The development of the region 2 system and the three-dimensional current closure are discussed.

Published

1990

10. Multiple ground-based and satellite observations of global Pi 2 magnetic pulsations

Author

Yumoto, K, Takahashi, K, Sakurai, T, Sutcliffe, P. R, and Kokubun, S

Subjects

Geophysics

Abstract

Four Pi 2 events are examined using data obtained concurrently at the Syowa-Iceland conjugate stations, the EISCAT-Magnetometer Cross, low-latitude stations HER on the nightside and KAK on the dayside, and at AMPTE/CCE in the outer magnetosphere during the period from 2300 UT on May 22 to 0300 UT on May 23, 1985. Several characteristics of Pi 2 are established on the basis of high time resolution magnetic field data. First of all, horizontal components, H and D, of the Pi 2 oscillate nearly antiphase and in-phase, respectively, between the high- and low-altitude stations in the midnight southern hemisphere. Both H and D components of the Pi 2 have nearly in-phase relationships between the nightside and the dayside stations at low altitude. The Pi 2 amplitude is larger at the high-latitude station and decreases toward low latitudes. The dominant periods of the Pi 2 are nearly identical at all stations.

Published

1990

11. Field-aligned current signatures in the near-tail region. I - ISEE observations in the plasma sheet boundary layer

Author

Ohtani, S, Kokubun, S, Elphic, R. C, and Russell, C. T

Subjects

Geophysics

Abstract

Field-aligned currents in the near-tail region are examined using ISEE magnetometer data. Two substorms (the 1054 UT and the 1436 UT substorms on March 22, 1979) were examined, demonstrating the consistency of the current polarity and intensity with observations at lower altitudes, which suggests that field-aligned currents in the plasma sheet boundary layer are parts of the large-scale current system, the region-1 system. An examination of the steplike changes of the magnetic field direction, which correspond to the spacecraft crossing of a net field-aligned current, showed that the field-aligned currents in the plasma sheet boundary layer have the same polarity as the region-1 system.

Published

1988

12. Substorm signatures at synchronous altitude

Author

Kokubun, S and Mcpherron, R. L

Subjects

Geophysics

Abstract

The signatures of magnetospheric substorms near 6.6 earth radii are statistically examined using data obtained on board ATS 6 by magnetic field and energetic particle measurements. It is confirmed that the configuration change toward a tail-like field in the dusk-to-midnight sector typically begins about one hour before the onset of the expansion phase of a substorm. Configuration changes before the onsets of moderate substorms are characterized by a directional change of magnetic field at magnetic latitude of approximately 10 deg, rather than by a change in the field magnitude. It is found during storm periods that the magnetic field orientation occasionally becomes almost parallel to the magnetic equator before expansion phase onsets. Here, the field magnitude usually increases above background levels. These facts are seen as strongly suggesting that a tail-like configuration is caused by an intensification and earthward motion of the cross-tail current system, often close to 6.6 earth radii, rather than by development of diamagnetic ring current.

Published

1981

13. OGO 5 observations of Pc 5 waves - Particle flux modulations

Author

Kokubun, S, Kivelson, M. G, Mcpherron, R. L, Russell, C. T, and West, H. I., Jr

Subjects

Geophysics

Abstract

An investigation is conducted concerning the modulations of particle fluxes associated with Pc 5 waves in the region beyond the plasmapause. A study of thermal flux modulations indicates that some of the density enhancements observed are not spatial structures but are spurious features caused by temporal flux variations associated with hydromagnetic waves. A resonance model of the energetic particle flux modulations is discussed. Energetic particle modulations are also considered. The reported observations reveal that modulations are dominant at energies of about 100 keV for electrons and at 100 keV to 1 MeV for protons. This may indicate that the bounce resonance interaction is not important for Pc 5 waves.

Published

1977

14. Triggering of substorms by solar wind discontinuities

Author

Kokubun, S, Mcpherron, R. L, and Russell, C. T

Subjects

Space Radiation

Abstract

The probability of triggering of polar substorms by a large-scale magnetospheric compression associated with a discontinuity in the solar wind has been examined statistically using ground magnetogram data, AE index data and satellite geomagnetic data on 125 sudden storm commencements observed during 1967-1970. The triggering probability was found to depend on the amplitude of the sudden storm commencement and on the degree of preceding AE activity. In almost all cases the triggering occurred when the B-Z component of the interplanetary magnetic field was negative or decreasing during the 30 min before the passage of the discontinuity. Transient geomagnetic responses with a time scale of Alfven wave propagation in the polar cap also depend on interplanetary magnetic field conditions.

Published

1977

15. Ogo 5 observations of Pc 5 waves - Ground-magnetosphere correlations

Author

Kokubun, S, Mcpherron, R. L, and Russell, C. T

Subjects

Geophysics

Published

1976

16. GEOTAIL observation of magnetospheric convection in the distant tail at 200 REin quiet times

Author

Nishida, A., primary, Mukai, T., additional, Yamamoto, T., additional, Saito, Y., additional, Kokubun, S., additional, and Maezawa, K., additional

Published

1995

17. Observations of plasmas and magnetic fields in Earth's distant magnetotail: Comparison with a global MHD model

Author

Frank, L. A., primary, Ashour-Abdalla, M., additional, Berchem, J., additional, Raeder, J., additional, Paterson, W. R., additional, Kokubun, S., additional, Yamamoto, T., additional, Lepping, R. P., additional, Coroniti, F. V., additional, Fairfield, D. H., additional, and Ackerson, K. L., additional

Published

1995

18. Comment on “Substorm time constants” by D. R. Weimer

Author

Kamide, Y., primary and Kokubun, S., additional

Published

1995

19. Observations of convection vortices in the afternoon sector using the SuperDARN HF radars

Author

Bristow, W. A., primary, Sibeck, D. G., additional, Jacquey, C., additional, Greenwald, R. A., additional, Sofko, G. J., additional, Mukai, T., additional, Yamamoto, T., additional, Kokubun, S., additional, Hughes, T. J., additional, Hughes, W. J., additional, and Engebretson, M. J., additional

Published

1995

20. Field-aligned current signatures during the March 13–14, 1989, Great Magnetic Storm

Author

Fujii, R., primary, Fukunishi, H., additional, Kokubun, S., additional, Sugiura, M., additional, Tohyama, F., additional, Hayakawa, H., additional, Tsuruda, K., additional, and Okada, T., additional

Published

1992

21. Field-aligned current signatures in the near-tail region: 2. Coupling between the region 1 and the region 2 systems

Author

Ohtani, S., primary, Kokubun, S., additional, Nakamura, R., additional, Elphic, R. C., additional, Russell, C. T., additional, and Baker, D. N., additional

Published

1990

22. Geomagnetically conjugate relationships of giant pulsations at Syowa Base, Antarctica, and Reykjavik, Iceland.

Author

Nagata, Takesi, Kokubun, S., and Iijima, T.

Published

1963

23. On the pressure balance in the distant magnetotail

Author

Matsumoto, Y., Mukai, T., Saito, Y., Kokubun, S., and Hoshino, M.

Abstract

Pressure balance between the lobe and the plasma sheet in the distant magnetotail is statistically studied with data obtained by the Geotail spacecraft. We selected events where the spacecraft traversed from the lobe to the neutral sheet and vice versa. As a result, we have found that the total pressure variations can be categorized by three types. Type 1, in which the total pressure is kept almost constant during the crossings, contains about a half of all events. This type is regarded as an average static feature of the distant magnetotail. Type 2 and Type 3 events are characterized by enhancement and depression of the total pressure in the plasma sheet, respectively. While the excess total pressure in Type 2 events can be explained by the passage of a plasmoid during the crossing, characteristics of Type 3 events suggest that they are located near the reconnection region. Depression of the total pressure indicates that part of the total pressure (energy density) is converted into plasma kinetic energy across a slow‐mode shock boundary.

Published

2001

24. Motion of the Earth's bow shock in the deep‐tail flank

Author

Tsubouchi, Ken, Terasawa, T., Mukai, T., Saito, Y., Yamamoto, T., Kokubun, S., Kojima, H., and Matsumoto, H.

Abstract

The motional properties of the Earth's bow shock are analyzed using Geotail observations from beyond 70 REbehind the Earth. It is verified, with the help of an MHD model, that the shock motion mechanism can be explained as a consequence of the interaction between an upstream Alfvénic disturbance and the shock. From 68 samples of bow shock crossings observed in the flank region, the motion was found to be described by a large‐scale flutter, accompanied by two‐ or three‐dimensional motions, rather than as a simple one‐dimensional oscillation. We observed that the local shock normal direction is distributed ∼ ±20° around the direction of its static shape. The surface velocity of the bow shock, Vshock, increases with increasing deviation of the shock normal direction, n, from its equilibrium direction. We have further shown that there is a linear relationship between Vshockand n. Upon a directional change of the solar wind magnetic field, the bow shock moves so that the incident solar wind flux in the shock rest frame is kept approximately constant. Results from MHD model calculations correlate well with such observations, where the bow shock minimizes the thermodynamic variations in the magnetosheath in response to upstream perturbations. Some extraordinary observations that the shock normal vector has an antisunward component can also be accounted for in this context.

Published

2000

25. Magnetospheric plasma regimes identified using Geotail measurements: 1. Regime identification and distant tail variability

Author

Eastman, T. E., Christon, S. P., Doke, T., Frank, L. A., Gloeckler, G., Kojima, H., Kokubun, S., Lui, A. T. Y., Matsumoto, H., McEntire, R. W., Mukai, T., Paterson, W. R., Roelof, E. C., Saito, Y., Tsuruda, K., Williams, D. J., and Yamamoto, T.

Abstract

For many important scientific objectives, the analysis and interpretation of magnetospheric data sets require a sorting by primary plasma regimes. This sorting process is much more difficult in the distant magnetotail than for data sets sampled close to Earth. We have carried out systematic regime identifications for the entire deep‐tail portion of Geotail data at timescales down to ∼l min. Criteria were developed for selection of five basic plasma regimes: plasma sheet, lobe, magnetospheric boundary layer, magnetosheath, and solar wind. In addition to low‐energy plasma data central to the identification process, critical supplementary information derives from magnetic field and plasma wave data. We find that all basic plasma regimes remain physically distinct populations at all downtail distances sampled by the Geotail spacecraft. Preliminary automated separation of subregimes using a Bversus δBmethod shows that plasma mantle intervals increase in probability of occurrence from 18% near Earth to about 50% near 205 RE. In contrast, plasma sheet intervals decrease overall with increasing tailward distance. Beyond about X= −100 RE, the frequency of short regime intervals steadily increases, overall variability increases, and the lobe and plasma sheet are progressively displaced by the boundary layer, here mostly plasma mantle. Our plasma regime identifications provide a critical baseline for the development of automated identification and a key resource for both Geotail data analysis and correlative studies between Geotail and other International Solar Terrestrial Physics mission data sets.

Published

1998

26. Magnetospheric plasma regimes identified using Geotail measurements: 2. Statistics, spatial distribution, and geomagnetic dependence

Author

Christon, S. P., Eastman, T. E., Doke, T., Frank, L. A., Gloeckler, G., Kojima, H., Kokubun, S., Lui, A. T. Y., Matsumoto, H., McEntire, R. W., Mukai, T., Nylund, S. R., Paterson, W. R., Roelof, E. C., Saito, Y., Sotirelis, T., Tsuruda, K., Williams, D. J., and Yamamoto, T.

Abstract

We investigate the spatial distribution, solar‐terrestrial correlation, and basic statistics of a long sequence of plasma regime identifications through the probability of observation Pat downtail distances of ∼30 < xagsm< 210 RE, in an aberrated GSM coordinate system. The data are from Geotail spacecraft measurements obtained from October 1992 through October 1994. Earth's local plasma environment has been classified into five principal plasma regimes: PS, the plasma sheet, LB, the lobe (vacuum lobe, with only trace plasma content), and BL, the magnetospheric boundary layer, which together comprise the magnetosphere proper, and MS, the magnetosheath, and SW, the nearby solar wind. Eastman et al.[this issue] describe the process, rationale, and instrumentation used in the regime identifications. In the middle magnetotail (30 < xagsm< 100 RE): At geomagnetic activity index values Kp< 3o, (a) The average magnetospheric morphology appears nominal, with no large‐scale dawn‐dusk asymmetries; (b) PS is the regime most likely to be observed, and the spatial interrelationships of the PS, LB, BL, and MS appear similar to those commonly observed within −20 REof Earth; that is, the magnetosphere is inside and the magnetosheath is outside; and (c) P(BL) increases gradually with increasing xagsm. At Kp≥ 3o, (d) The centroid of P(PS) lies duskward of the XAGSMaxis, producing a distinct dawn‐dusk asymmetry; (e) P(BL) increases sharply at xagsm> 60 REand remains high tailward; and (f) At xagsm< 75 RE, MS is rarely observed for |YAGSM| < 20 RE. In the distant magnetotail (xagsm> 100 RE): (a) Conditions appear more chaotic. PS, BL, or MS can be observed anywhere inside the nominal magnetotail domain; (b) Compared to the middle magnetotail, PS and BL are observed more dawnward of the XAGSMaxis and P(PS) is significantly lower (most distinctly at Kp> 3o); (c) P(PS) is centered dawnward of the XAGSMaxis for both low and high Kp; and (d) At xagsm≥ 170 RE, P(BL) is greater than P(PS) or P(MS), with P(MS) ≈ P(PS). P(LB) > 0, but low, out to xagsm≥ 200 RE. In general, the downtail distributions of the magnetospheric plasma regimes depend more strongly on xagsmthan on Kp, however the YAGSMdistribution of P(PS) depends strongly with both xagsmand Kp. Magnetotail width varies weakly with xagsmand Kp.

Published

1998

27. Two‐component auroral electrojet: Importance for substorm studies

Author

Kamide, Y. and Kokubun, S.

Abstract

This paper attempts to synthesize the diverse number of observations of electric fields and currents in the high‐latitude ionosphere during substorms. By demonstrating that there are often spatial shifts among regions of high ionospheric conductivity, large electric fields and intense currents in the auroral electrojet, it is shown that substorm time variations of the current patterns over the entire polar region consist of two basic components. The first is related to the two‐cell convection pattern and the second to the westward electrojet in the dark sector, which is in turn related to the three‐dimensional wedge current system. These two components result from the relative strength of electric fields and conductivities in the intensification of the auroral electrojet and are identified as the signatures for directly driven and the unloading components in solar wind‐magnetosphere interactions. We contend that disturbed intervals do not necessitate the presence of substorm expansion‐phase activity and that the vast number of earlier complex results concerning the auroral electrojet can be ascertained from the high degree of variability of the two components, depending on substorm events, substorm phases, and their own spatial/temporal scale sizes. It is demonstrated that several major issues that have remained controversial are now accounted for reasonably well in terms of this two‐component electrojet model. We also predict specific features of the substorm auroral electrojet that have not yet been observed.

Published

1996

28. Short‐duration convection bays and localized interplanetary magnetic field structures on November 28, 1995

Author

Sergeev, V. A., Kamide, Y., Kokubun, S., Nakamura, R., Deehr, C. S., Hughes, T. J., Lepping, R. P., Mukai, T., Petrukovich, A. A., Shue, J.‐H., Shiokawa, K., Troshichev, O. A., and Yumoto, K.

Abstract

We present ground‐based, plasma sheet, and magnetosheath observations of two subsequent short‐duration (10–20 min) increases of the postmidnight westward electrojet on November 28, 1995. Appearing as though small (150–200 nT) substorms, they were not accompanied by any substorm expansion onset signatures. Auroral breakup, worldwide Pi2 pulsations, and the corresponding plasma sheet activity, such as fast flows, current disruption, and plasmoid generation, were all observed only at the recovery of the second electrojet increase. These convection bays were associated with the equatorward expansion of the auroras and simultaneous magnetic variations in the polar cap and middle latitudes. Growth phase signatures of the lobe field increase and tailward stretching of magnetic field were also observed in the plasma sheet. Bursty bulk flows in the plasma sheet seem to be quenched at the onset of first convection bay and did not resume until the auroral breakup which concluded the second convection bay. A point of interest of this event was the “incomplete” convection/current system with a well‐developed dawn vortex in the absence of well‐defined dusk vortex; instead, a complicated transient activity dominated over the afternoon‐dusk local time sector. We interpret this asymmetry either in terms of the magnetopause encounter with the edge of the solar wind driver, i.e., strong southward IMF, which hits only the dawn part of the magnetosphere, or with an extremely slant interplanetary discontinuity. This unique configuration was inferred from observations of uncorrelated strong southward Bzevents by the Wind and IMP 8 spacecraft in the dusk and dawn magnetosheath, respectively, as well as from the directional analysis of the interplanetary discontinuities which form the edges of these structures. We suggest that interaction of the magnetosphere with very slant solar wind discontinuities may bring various specific features to magnetospheric and ionospheric dynamics that have not been reported.

Published

1998

29. Geotail observations of a fast tailward flow at XGSM= −15 RE

Author

Nagai, T., Fujimoto, M., Nakamura, R., Saito, Y., Mukai, T., Yamamoto, T., Nishida, A., Kokubun, S., Reeves, G. D., and Lepping, R. P.

Abstract

Geotail observed a fast tailward flow burst (a speed of >600 km/s) with southward Bzin the Earth's magnetotail at a radial distance of 15.5 REon March 30, 1995. Ions in this burst consisted of a single‐component plasma showing convection motion, and these ions were confined near the neutral sheet. This flow burst was likely associated with a pseudobreakup rather than a major substorm onset. In this event, magnetic reconnection appeared to take place only for the field lines near the neutral sheet. The magnetic reconnection was quenched soon and resulted in a short‐lived tailward flow burst embedded in the plasma sheet.

Published

1998

30. Field-aligned current signatures in the near-tail region: 1. ISEE observations in the plasma sheet boundary layer

Author

Ohtani, S., primary, Kokubun, S., additional, Elphic, R. C., additional, and Russell, C. T., additional

Published

1988