foreshock studies by mex and vex fab: field-aligned beam fab + fs: foreshock m. yamauchi et al
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Foreshock studies by MEX and VEX
FAB: field-aligned beam
FAB + FS: foreshock
M. Yamauchi et al.
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SW parameter
BS size
MA
(n1/2 V/B)
c/pi
( n-1/2)
rg
( V/B)
Venus 1 1 1 1
Earth ~ 5 ~ 1.2 ~ 1.7 ~ 2
Mars ~ 0.5 ~ 1.4 ~ 3 ~ 4
Shock = Fluid natureForeshock = Particle nature Gyroradius/Inertia length vs Bow-
shock size is an important factor
2 keV H+ under 6 nT rg = 1000 km
5/cm3 H+ c/pi = 100 km vs RMars = 4000 km
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1. Earth
2. Venus (similar to Earth)future work :
He++/H+ ratio
3. Mars (Different from Venus/Earth)future work : various
shock
Outline
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* Upstream region
* Large V// (& sunward)
* Energized (> Esw)
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(Cao et al., 2008)
V// V//
V V
cluster-3 cluster-1
SW SW
FAB
* Localized (< few 100km)
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1. solar wind, 2. newly born ion, 3. bow-shock cold ion
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SW SW SW
BS BSBS
∑ 3-min scan
e- (top) & H+ (rest) at different angle
SW
BS
∑ 3-min scan ∑ 3-min scan ∑ 3-min scan
we show this
Venus (Venus Express)
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Venus ≈ EarthB
connected to BS = FS
B
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IMA looking directionVEX
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SW
SW
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1. Field-aligned H+.
2. Gyrating H+ with large V//.
Both types are ∆V// << V//,
Two populations(same as Earth)
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1. solar wind, 2&3. bow-shock cold ion, 4. sneak out ∆V// << V// (yes), ∆V// << V// (yes), ∆V// ~ V// (no),
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He++ and H+ show different behavior (future work)
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Venus ≈ Earth
No internal magnetic field, no magnetosphere.
Planet is the same size as the Earth.
Smaller bow shock size than the Earth, yet MHD regime.
No internal magnetic field.
Planet is smaller than the Earth.
The bow shock size is too small to treat with MHD
How about Mars?
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(1) only "ring" distribution(2) no "foreshock" signature (examined ~ 500 traversals)
BS
Quite different from Venus:
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If very close to bow shock
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3rd // acc2nd // accmain // acc
pre-accheating
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blue: primary ringred: 1st branchpurple: 2nd branchbrown: 3rd branch
Multiple acceleration
Gyro-phase bunching
red: half gyropurple: one third gyro
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Multiple-Reflectionframe XYZ (MSO) LMN
L (0, 0.55, -0.8) = (+1,0,0)
M (-1.0, 0.15, 0.1) = (0,+1,0)
N=-B/B (0.2, 0.8, 0.55) = (0,0,+1)
n (0.6, -0.8, 0.) (-0.45, -0.7, -0.5)
VSW/VSW= (-1, 0, 0) (0., 1.0, 0.2)
VR/VSW(-0.3, -0.95, 0.) (-0.5, 0.15, -0.8)
VHT/VSW(-1.2, -0.95, -0.6) (0., 1.0, -1.4)
n: shock normalVR: specularly reflected SWx VHT: de Hoffman Teller (V’SW // B)
+M
~ +N
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Multiple-Reflection+M
~ +NS E
S E
S E
S E
S: toward BS from left
S&E: toward BS from left
S ~ VHT = along BS E: along BS
S: along BSE: toward BS
E: toward BS from right(0.6, -0.8, 0)XYZ
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SW Reflection convert V to V// in SW frame
∆
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V//
-VXVSW
reflection
reflection
gyration
gyration
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3rd // acc2nd // accmain // acc
pre-accheating
Time = Spatial variation
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Classifying counts in // and directions
Time = Spatial variation
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Three configurations (on-going work)
2005-7-292005-8-3
2005-7-12 2005-8-5
Done
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Special features for Mars
• // beam observed only close to BS
• Energy is stepping (due to reflection?)
• Gyro-bunching effect (due to short distance?) with gradual acceleration (why?)
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SummaryVenus Express / ASPERA-4 often observes back-streaming H+ in the foreshock region of Venus, in a similar ways as the Terrestrial foreshock, i.e., field-aligned component, and intermediate (gyrating) component
Mars Express / ASPERA-3 (same instrumentation as VEX) did not observe similar ions in the Martian foreshock region beyond the foot region. Instead, it shows different type of acceleration in the foot region, indicating the ion trajectory (history) during its gyromotion.
The finite gyroradius effect makes Mars a perfect laboratory to study acceleration processes.
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End
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Quasi- shock (case 1)
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Quasi- and // (case 1+3)
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Quasi-// (case 3)
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case 3a
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case 3b
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Quasi- (case 1+3)
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2006-6-18 2008-10-28
B
connected to BS
B B B
Beam = foreshockconnected to BS
Sometimes no beam in foreshock
Venus ≈ Earth
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5th Alfvén Conference
4-8 October, 2010Sapporo, Japan
www.ep.sci.hokudai.ac.jp/~alfven5
on “Plasma Interaction with Non-magnetized Planets/Moons and its Influence on Planetary Evolution”
Mars, Venus, The Moon, and Jovian/Saturnian satellites