In-situ Observations of Collisionless Reconnection in the Magnetosphere Tai Phan (UC Berkeley)...
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![Page 1: In-situ Observations of Collisionless Reconnection in the Magnetosphere Tai Phan (UC Berkeley) 1.Basic signatures of reconnection 2.Topics: a.Bursty (explosive)](https://reader030.fdocuments.us/reader030/viewer/2022032704/56649d4e5503460f94a2e237/html5/thumbnails/1.jpg)
In-situ Observations of Collisionless Reconnection in the Magnetosphere
Tai Phan (UC Berkeley)
1. Basic signatures of reconnection
2. Topics:a. Bursty (explosive) versus quasi-steady reconnectionb. Conditions for the onset of reconnectionc. Particle energizationd. Extent of X-line
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- Reconnection occurs at the dayside magnetopause and in the magnetotail
- The properties of reconnection are vastly different in the two regions
- Parameter regime: B~ 10-4-10-3 G, Density~ 1-10 cm-3, Energy~ 1-300 keV
jet
jet
jet
jet
Locations of reconnection in the magnetospheret1 t2 t3 Dungey [1961]
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In-situ measurements of B, E, and particle distributions (Density, T, V)
Advantages with in-situ observations:- Conclusive evidence for reconnection- Detailed properties of reconnection - Quantitative comparisons with theory
Disadvantage: Global context and consequences often not known
In-situ observations
jet
jet
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Outline
1. Basic signatures of reconnection
2. Topics:a. Bursty (explosive) versus quasi-steady reconnectionb. Conditions for the onset of reconnectionc. Particle energizationd. Extent of X-line
![Page 5: In-situ Observations of Collisionless Reconnection in the Magnetosphere Tai Phan (UC Berkeley) 1.Basic signatures of reconnection 2.Topics: a.Bursty (explosive)](https://reader030.fdocuments.us/reader030/viewer/2022032704/56649d4e5503460f94a2e237/html5/thumbnails/5.jpg)
1. Signatures of reconnection
Diff
usio
n re
gion
jet
I. Exhaust (outflow region): > 99% of reconnection encounters
- Ion (Alfvenic) jets: most basic and universal signature
II. Diffusion regions: Rare encounters
- Ions and electrons decoupled from the magnetic field
inflow
t1 t2
t3
inflow
jet
50 km
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Reconnection signature: Alfvenic outflow jets
BLMN
(nT)
|B|(nT)
Vp
(km/s)
Np
(cm-3)
Tp
(eV)
predicted
Diff
usio
n re
gion
jet
jet
spacecraft
Vpredicted = ± B/(μ0ρ1)1/2
[Paschmann et al., Nature, 1979]
density compression
heating
Tp||
Tp
|B| ↓
BL
UT
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Geotail and Equator-S detections of bi-directional reconnection jets
[Phan et al., Nature, 2000]
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Outline
1. Basic signatures of reconnection
2. Topics:a. Bursty (explosive) versus quasi-steady reconnectionb. Conditions for the onset of reconnectionc. Particle energizationd. Extent of X-line
![Page 9: In-situ Observations of Collisionless Reconnection in the Magnetosphere Tai Phan (UC Berkeley) 1.Basic signatures of reconnection 2.Topics: a.Bursty (explosive)](https://reader030.fdocuments.us/reader030/viewer/2022032704/56649d4e5503460f94a2e237/html5/thumbnails/9.jpg)
Dayside Magnetopause: - Can be quasi-steady - Maintain thin (ion skin depth) current sheet due to constant solar wind compression
Magnetotail: - Always bursty: Storing and releasing magnetic energy (similar to solar flares) - Generally thick current sheet (of many ion skin depths thick) - Requires accumulation of magnetic flux to compress current sheet
Bursty (Explosive) versus Quasi-Steady Reconnection
Thin current sheet Usually thick current sheet (no reconnection)
![Page 10: In-situ Observations of Collisionless Reconnection in the Magnetosphere Tai Phan (UC Berkeley) 1.Basic signatures of reconnection 2.Topics: a.Bursty (explosive)](https://reader030.fdocuments.us/reader030/viewer/2022032704/56649d4e5503460f94a2e237/html5/thumbnails/10.jpg)
Magnetotail: Bursty reconnection
Vx(km/s)
Reconnection jets
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Outline
1. Basic signatures of reconnection
2. Topics:a. Bursty (explosive) versus quasi-steady reconnectionb. Conditions for the onset of reconnectionc. Particle energizationd. Extent of X-line
![Page 12: In-situ Observations of Collisionless Reconnection in the Magnetosphere Tai Phan (UC Berkeley) 1.Basic signatures of reconnection 2.Topics: a.Bursty (explosive)](https://reader030.fdocuments.us/reader030/viewer/2022032704/56649d4e5503460f94a2e237/html5/thumbnails/12.jpg)
Conditions for the onset of Reconnection
• Thin current sheet (~ 1 ion skin depth)
• Reconnection occurrence depends also on plasma and magnetic shear
Reconnection jet not always seen at the magnetopause
=> Thin current sheet is a necessary but not sufficient condition for reconnection
Paschmann [1996] found that reconnection events tend to occur for low
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Reconnection occurrence dependence on and magnetic shear in asymmetric reconnection [Swisdak et al., ApJ. 2003, 2010]
Mag
netic
She
ar
(deg
rees
)
< 2 tan(/2) (L/i)
density gradient scale
reconnection
no reconnection
L = i
Physics: Diamagnetic drift of X-line prevents reconnection if drift speed > VA
Diff
usio
n re
gion
L
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Occurrence of solar wind reconnection vs. and magnetic shear
Wind197 reconnection events
Phan et al. [ApJL, 2010]
- At reconnection can occur for magnetic shear down to 10o
- At reconnection requires magnetic shear >100o
Diff
usio
n re
gion
L
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(Collisionless) Reconnection requires:
• Thin current sheet (~ 1 ion skin depth)
• Satisfies and magnetic shear condition:- Low allows low magnetic shear- High requires large magnetic shear
• Tangential velocity shear across the current sheet < VA
• Other conditions?
With all these strict conditions, triggering reconnection is not easy !
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Outline
1. Basic signatures of reconnection
2. Topics:a. Bursty (explosive) versus quasi-steady reconnectionb. Conditions for the onset of reconnectionc. Particle energizationd. Extent of X-line
![Page 17: In-situ Observations of Collisionless Reconnection in the Magnetosphere Tai Phan (UC Berkeley) 1.Basic signatures of reconnection 2.Topics: a.Bursty (explosive)](https://reader030.fdocuments.us/reader030/viewer/2022032704/56649d4e5503460f94a2e237/html5/thumbnails/17.jpg)
Particle Energization by Reconnection(mechanisms still not well understood)
Diff
usio
n re
gion
jet
Magnetic energy => Particle energy
Alfvenic ion jet thermal heating non-thermal heating
t1 t2 t3jet
inflow inflow400 km/s = 1 keV up to 300 keV
electrons
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f (el
ectr
ons)
(s3 m
-3)
VX
(km s-1)
Maxwellian
f E-k
near diffusion region center
k=4.8
outflow k=5.3
Energy densities near X-line:
- Ion jet: 95%- Thermal ions+electrons: 4%- Electron power law tail: 1%
[Øieroset et al., Nature, 2001]
[Øieroset et al., PRL, 2002]
An example of electron acceleration to 300 keV
Wind
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Betatron and Fermi accelerations far downstream of the reconnection site
In flow breaking region: substantial energy density in the power law tail
Conclusions:
- Electrons are accelerated to hundreds of keV near the X-line, but the energy densityof the energetic electron population is low compared to the ion jet
- However, additional energization occurs at flow breaking
Hara and Nishida [1981]
![Page 20: In-situ Observations of Collisionless Reconnection in the Magnetosphere Tai Phan (UC Berkeley) 1.Basic signatures of reconnection 2.Topics: a.Bursty (explosive)](https://reader030.fdocuments.us/reader030/viewer/2022032704/56649d4e5503460f94a2e237/html5/thumbnails/20.jpg)
Outline
1. Basic signatures of reconnection
2. Topics:a. Bursty (explosive) versus quasi-steady reconnectionb. Conditions for the onset of reconnectionc. Particle energizationd. Extent of X-line
![Page 21: In-situ Observations of Collisionless Reconnection in the Magnetosphere Tai Phan (UC Berkeley) 1.Basic signatures of reconnection 2.Topics: a.Bursty (explosive)](https://reader030.fdocuments.us/reader030/viewer/2022032704/56649d4e5503460f94a2e237/html5/thumbnails/21.jpg)
How extended is the reconnection X-line?
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Extremely extended Extremely extended (104- 105 i) X-lines in Solar Wind
X-line up to 600 RE (105 i)
Phan et al. [Nature, 2006]: 390 Earth radii Gosling et al. [GRL, 2008]: 600 RE
Stereo-A
Stereo-B
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• All 3 spacecraft encountered the same solar wind current sheetAll 3 spacecraft encountered the same solar wind current sheet• All 3 spacecraft detected reconnection jets in the current sheetAll 3 spacecraft detected reconnection jets in the current sheet
To Sun
ACE
Cluster Wind
220 RE
331 RE
current sheet
The 390 RE (3x104 i) X-line event
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Summary
1. X-line can be extremely extended (> 105 ion skin depths)
2. Both bursty and quasi-steady behaviors have been seen - Quasi-steady requires maintaining thin current sheet.
3. Not easy to trigger reconnection in current sheets. Requirements:- Thin (ion skin depth scale) current sheet- Low (<1) allows strong guide field reconnection. High reconnection requires large magnetic shear (small guide field).
4. Reconnection can accelerate electrons to non-thermal energies, but the additional obstacle downstream helps energize electrons further.
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Pitch angle spectrum near diffusion region center
Counter-streaming at low energiesIsotropic at higher energies ( > 6 keV)
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Interpenetrating ion beams as further evidence for reconnection
left
right
Inside
Inside
Gosling et al. [2005]
Diff
usio
n re
gion
spacecraft
2 VA
left
rightInside