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1

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Energetic atomic and molecular ions of ionospheric origin observed in distant magnetotail flow-reversal events (1994)

Christon, S. P. ; Gloeckler, G. ; Williams, D. J. ; [et al.]

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Publication Date: 2011-08-24

Description: Energetic atomic (O(+1) and N(+1)) and molecular (O2(+1), NO(+1), and N2(+1)) ions of ionospheric origin were observed in Earth's magnetotail at X approximately -146 R(sub E) during two plasma sheet sunward/tailward flow-reversal events measured by instruments on the GEOTAIL spacecraft. These events were associated with concurrent ground-measured geomagnetic disturbance intensification at auroral-and mid-latitudes (Kp = 7(-)). Energetic ions in the sunward-component and tailward flows were from both the solar wind and ionosphere. Plasma and energetic ions participated in the flows. During tailward flow, ionospheric origin ion abundance ratios at approximately 200-900 km/s in the rest frame were N(+1)/O(+1) = approximately 25-30% and ((O2(+1), NO(+1), and N2(+1))/O(+1) = approximately 1-2%. We argue that tailward flow most likely initiated approximately 80-100 R(sub E) tailward of Earth and molecular ions were in the plasma sheet prior to geomagnetic intensification onset.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 21; 25; p. 3023-3026

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2

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Magnetic properties of the high-latitude tail boundary - Draping of magnetosheath field lines and tail-aligned current (1991)

Ohtani, S. ; Kokubun, S.

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Publication Date: 2011-08-19

Description: 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.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 96; 9521-953

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3

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Multiple ground-based and satellite observations of global Pi 2 magnetic pulsations (1990)

Sutcliffe, P. R. ; Yumoto, K. ; Takahashi, K. ; [et al.]

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Publication Date: 2011-08-19

Description: 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.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 95; 15175-15

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4

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IMP 8 magnetic observations of the high-latitude tail boundary - Locations and force balance (1990)

Ohtani, S. ; Kokubun, S.

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Publication Date: 2011-08-19

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 95; 20759-20

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5

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Substorm signatures at synchronous altitude (1981)

Mcpherron, R. L. ; Kokubun, S.

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Publication Date: 2019-06-28

Description: 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.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 86; Dec. 1

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6

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Ogo 5 observations of Pc 5 waves - Ground-magnetosphere correlations (1976)

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

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Publication Date: 2019-06-27

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 81; Oct. 1

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7

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OGO 5 observations of Pc 5 waves - Particle flux modulations (1977)

Mcpherron, R. L. ; Russell, C. T. ; Kokubun, S. ; [et al.]

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Publication Date: 2019-06-27

Description: 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.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 82; July 1

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8

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A filament of energetic particles near the high-latitude dawn magnetopause (1994)

Jacquey, C. ; Williams, D. J. ; Ackerson, K. L. ; [et al.]

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Publication Date: 2019-07-13

Description: The Geotail satelite detected a filament of tailward-streaming energetic particles spatially separated from the boundary layer of energetic particles at the high-latitude dawn magnetopause at a downstream distance of approximately 80 R(sub E) on October 27, 1992. During this event, the composition and charge states of energetic ions at energies above approximately 10 keV show significant intermix of ions from solar wind and ionospheric sources. Detailed analysis leads to the deduction that the filament was moving southward towards the neutral sheet at an average speed of approximately 80 km/s, implying an average duskward electric field of approximately 1 mV/m. Its north-south dimension was approximately 1 R(sub E) and it was associated with an earthward directed field-aligned current of approximately 5 mA/m. The filament was separated from the energetic particle boundary layer straddling the magnetopause by approximately 0.8 R(sub E) and was inferred to be detached from the boundary layer at downstream distance beyond approximately 70 R(sub E) in the distant tail.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 21; 25; p. 3011-3014

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9

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Magnetopause encounters in the magnetotail at distances of approximately 80 R(sub e) (1994)

Williams, D. J. ; Mcentire, R. W. ; Lui, A. T. Y. ; [et al.]

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Publication Date: 2019-07-13

Description: The GEOTAIL satellite experienced several encounters with the magnetopause during the interval 0300 to 0600 hours on 27 October 1992 at a gsm location of (X,Y,Z) approximately (-81, -8, 7.5) R(sub e). Energetic ions of both solar wind and ionospheric origin (H(+), He(++), and O(+)) were observed streaming in the anti-solar direction on both the lobe and magnetosheath side of the plasma mantle-magnetosheath boundary, with maximum fluxes occuring at the boundary. Even though the mantle plasma had penetrated well into the lobe through convective drift, the energetic ions were observed only at the magnetopause and provided a clear signature of the boundary region. Using a measured convective drift velocity and observed ergetic particle anisotropies, we estimated that the maximum distance from GEOTAIL that the energetic ions could have been accelerated or made contact with the boundary field lines was less than 8 - 39 R(sub e), implying that both solar wind and ionospheric ions are accelerated and contact the magnetopause many tens of earth radii behind the earth. We further found that the unusual magnetopause positions encountered at this time could be explained in part by solar wind aberration effects. However additional processes (e. g., magnetospheric breathing modes, convoluted tail topologies) are required to fully explain these observations.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 21; 25; p. 3007-3010

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10

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The morningside low-latitude boundary layer as determined from electric and magnetic field measurements on Geotail (1994)

Okada, T. ; Hayakawa, H. ; Kokubun, S. ; [et al.]

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Publication Date: 2019-07-13

Description: On October 17, 1992, the Geotail satellite crossed the dawnside magnetopause approximately 41 times. At the majority of these crossings, the magnetic field and the normal component of the electric field were larger and the plasma density was smaller in a low-latitude boundary layer than they were in either the nearby magnetosheath or in the magnetosphere. These results are intepreted in terms of the Kelvin-Helmholtz instability associated with velocity shear at the magnetopause. Consistent with this interpretation, it is shown that the low-latitude boundary layer was the region where the flow decreased from its magnetosheath to magnetospheric value. Evidence is presented that the magnetopause was locally oriented within less than 20 deg of its nominal geometry on these crossings and that it moved with an amplitude of 1500-6000 kilometers. The thickness of the low-latitude boundary layer averaged 800 kilometers and the electric potential across it averaged 4 kilovolts with a spread of a factor of 2. Thus, the viscous interaction and similar processes are not significant contributors to magnetospheric convection.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 21; 25; p. 2983-2986

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