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Sources of < 10 keV ring current ions: supply mechanism?

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Title: Sources of < 10 keV ring current ions: supply mechanism?


1
Sources of lt 10 keV ring current ions supply
mechanism?
  • M. Yamauchi, R. Lundin, H. Nilsson (IRF-Kiruna),
  • Y. Ebihara (Nagoya U.)
  • I. Dandouras, H. Reme (CESR, Toulouse)

Substorm production of plasma Sub-keV ring
current fossil of substorm Question source of
sub-keV ring current?
IMC workshop, Espoo, 2008-7
2
Sub-keV Ring Current?
mgt2 H
15 MLT
cavity in sub-keV range
Eastward (electric) drift
Westward (magnetic) drift
Noon Early morning Late
morning
only lt 1 keV also gt 1 keV also gt 1 keV
3
Statistics
poleward
Viking 14 MLT
eastward drift
Morning peak Energy decrease with MLT Cluster
Viking ? Freja (less) ? (1) Moves eastward (2)
Decrease in time (3) Freja is below mirror
altitude
6 MLT 9 MLT 12 MLT 15 MLT 18 MLT
Time-lag (hr) from substorm onset
4
Summary
UT 0030 0100 0130
0200
day (12 MLT)
Midnight (3 MLT)
difference
Substorm onset
Sub-keV component is fossil of substorm
activity Mirror altitude gt 2000 km
Seen at low-altitude (after substorm)
5
However Questions
(1) Too quick response (2) H - O difference (3)
Freja-Cluster difference in both composition and
distribution
mainly O mainly H
6
H - O difference
7
Case study 2001-10-21 event
Substorm onset
H O
South North
8
Oxygen feature
Substorm onset
O structure is only at 0.05-0.3 keV range (20
km/s 50 km/s). 0.05 keV O takes 2030 min
to travel from the ionosphere to the Cluster
location along B in best case. Therefore, O
should not have mirror-bounced, and this is
confirmed from nearly uni-direction pitch angle.
Again, 2030 min elapsed time (with morning
source) !
H both directions O one direction
PA
PA
9
O trajectory (30 min trajectory)
Tsyganenko T89 B-model Weimer 2001
E-model Backward trace of 0.1 keV O (reference
point S/C-3)
Pitch angle 0, 45, 90, 135, 180
Again, morning source
10
Inter-SC time-of-flight confirms the timing
V(10 keV) VE-VB ltlt VE
10 keV
0.1 keV
H
2340 UT
0.1 0 -0.1
2340 UT
SC-3 _at_ 2340UT No
SC-1,4 _at_ 2350UT Yes
9 MLT
Substorm onset
2350 UT
V(0.1 keV) VE
2350 UT
?t lt 13 min (100 eV/SC-3 10 keV/SC-4) ? t lt 30
min ? drift VE t lt 20000 km ? started at
79 MLT.
O
11
Questions
Q1.The source location (MLT altitude) Q2.The
source population (O source and H source can be
different). Q3. Source energy, i.e., relation
between two (keVwedge) components. Q4.The exact
relation to substorms Q5. Supply mechanism
To invest these problems, we need More
observation/analyses Numerical mapping
12
Source ?
Observation
Back-trace to 8 Re
Back-trace to 8 Re
Bursty cold (0.10.2/cc)
Isotropic Maxwellian (T1 keV, N0.5/cc)
13
Re-construction by simulation
both component together
14
Summary
Wedge-like dispersed sub-keV ring current is a
fossil of substorm activity carried by VExB
VB-drift. O source is different from H
source. The source is cold ions, which is
supplied from midnight to morning. A sample of
morning source 2003-10-29 event (next figure).
15
2003-10-29 event
IMAGE/FUV
Ground ?B
061140 UT
evening-midnight 2000 nT
Wide morning source of upward current (O escape)
nearly simultaneously with substorm onset
061340 UT
061540 UT
morning 2000 nT
Yamauchi, Iyemori, Frey, Henderson, 2006 JGR
16
(No Transcript)
17
Summary of 2001-10-21 event
  • Case study from 2001-10-21 event (9 MLT) shows
    that
  • The "wedge" suddenly appeared in the magnetic
    flux tube in which no signature was recognized 10
    minutes before.
  • The dispersion is formed within 3 Re distance
    from the spacecraft within 30 minutes before the
    observation.
  • Observed oxygen ions of the "wedge" were not
    mirrored, i.e., they directly came from northern
    ionosphere (ionospheric source) 20-30 minutes
    before.
  • ? Dispersion started and O is ejected from the
    morning (67 MLT).

18
Ground ?B auroral image
061140 UT
061540 UT
evening-midnight
IQA01 LT
morning
061340 UT
061740 UT
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