solar flares, current sheets, and finite-time singularities ...yuril/sol_sing.pdf · 1. solar...
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Solar flares, current sheets,and finite-time singularitiesin magnetohydrodynamics
Yuri Litvinenko
Department of Mathematics, University of Waikato, New Zealand
Flares and FTS – p.1/44
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Flares and FTS – p.2/44
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Outline
Solar flares: observations and theories
Reconnecting current sheets: basic properties
Self-similar solutions for current sheet formationin 2D magnetohydrodynamics (MHD) and Hall MHD
Finite-time singularities in Hall MHD
Flares and FTS – p.3/44
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GOES X-ray image of a solar flare (9/9/2005)
Flares and FTS – p.4/44
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TRACE close-up of the same flare
Flares and FTS – p.5/44
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The flaring solar corona (Yohkoh X-ray image)
Flares and FTS – p.6/44
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SDO EUV image of an eruption (31/08/2012)
Flares and FTS – p.7/44
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Why study solar flares?
1. Solar flares have a direct effect on the Earth.
Energetic particles, accelerated in solar flares, are dangerous toastronauts and to electronic instruments in space.
The atmosphere expands due to heating by the flare radiation,increasing the drag on the satellites orbiting around the Earth.
Plasma density variations in the ionosphere can impacthigh-frequency radio communication and GPS navigationsystems.
Power grid vulnerability, pipeline corrosion, ...
2. Flare-like energy release processes take place on other stars andin accretion disks.
Flares and FTS – p.8/44
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Energy release in flares
Flare:impulsive release of magnetic energy as radiation, heat,fast flows and particles in the lower corona of the Sun.
Total flare energy up toE ≃ 1032 erg:
B = 100 G, L = 1010 cm =⇒ B2
8πL3 ≥ E
Flare timetf ≃ 103 s:
tf ≤ 100 tA, tA =L
vA, vA =
B√4πρ
Flares and FTS – p.9/44
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Resistive energy release rate
W = I2R = I2L
Sη
I ∼ BL, S ≃ L2 =⇒ W ∼ η
Problem:η ∼ T−3/2 =⇒ W is too small.
Solution: flattenI into a sheet.
l ≪ L, S ≃ lL =⇒ W ∼ η
l
The famous Sweet–Parker (1957) scaling:
l ∼W ∼ η1/2
Flares and FTS – p.10/44
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Reconnecting current sheet
Flares and FTS – p.11/44
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Solar flare geometry
(Sturrock, 1968)
Flares and FTS – p.12/44
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Observational evidence for reconnection
(McKenzie, 2001)
Flares and FTS – p.13/44
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RHESSI X-ray images of a current sheet
(Sui and Holman, 2003)
Flares and FTS – p.14/44
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Flare geometry in three dimensions
(Machado et al., 1983)
Flares and FTS – p.15/44
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Hugh Hudson’s archive of flare cartoons
Flares and FTS – p.16/44
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More flare cartoons
Flares and FTS – p.17/44
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Even more ...
Flares and FTS – p.18/44
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A recent flare cartoon
(Janvier, 2014)
Flares and FTS – p.19/44
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Current sheet formation at a neutral line
Flares and FTS – p.20/44
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Parameters of a solar active region
Typical values:
L = 109.5 cm, T = 106 K, ρ = 10−15 g cm−3,
B = 102 G, vA =B√4πρ
≃ 109 cm s−1
Dimensionless resistivity:
η =c2
4πvALσ≃ 10−14.5
Dimensionless ion inertial length:
di =c
Lωpi
≃ 10−6.5 > η1/2
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Dimensionless equations of Hall MHD
Momentum equation:
∂tv + (v · ∇)v = −∇p+ J × B
Ohm’s law:E + v × B = di(J × B −∇pe)
Incompressibility:∇ · v = 0
Maxwell’s equations:
∇× E = −∂tB, ∇ · B = 0, J = ∇× B
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212D Hall MHD solution
v(x, y, t) = ∇φ× z +W z
B(x, y, t) = ∇ψ × z + Zz
Planar components:
∂t(∇2φ) + [∇2φ, φ] = [∇2ψ,ψ]
∂tψ + [ψ, φ] = di[ψ,Z]
Axial components:
∂tW + [W,φ] = [Z,ψ]
∂tZ + [Z, φ] = [W,ψ] + di[∇2ψ,ψ]
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A self-similar solution
Stream function:φ = −γ(t)xy
Flux function:ψ = α(t)x2 − β(t)y2
Axial speed:W = f(t)x2 + g(t)y2
Axial magnetic field:Z = h(t)xy
Flares and FTS – p.24/44
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v and B at t = 0
Flares and FTS – p.25/44
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Reconnection in a resistive viscous plasma
η 6= 0, ν 6= 0 =⇒
ψ → ψ + 2η
∫
(α− β)dt
W → W + 2ν
∫
(f + g)dt
Flares and FTS – p.26/44
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The similarity reduction (a system of ODEs)
α− 2αγ − 2diαh = 0
β + 2βγ + 2diβh = 0
f − 2γf + 2αh = 0
g + 2γg + 2βh = 0
h+ 4αg + 4βf = 0
Flares and FTS – p.27/44
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Current sheet formation in 2D MHD
di = 0
f = g = h = 0, γ = γ0
α− 2αγ0 = 0
β + 2βγ0 = 0
Exponential growth, no finite-time singularities (FTS):
α(t) = exp(2γ0t)
β(t) = exp(−2γ0t)
(Chapman and Kendall, 1963; Sulem et al., 1985;Grauer and Marliani, 1998)
Flares and FTS – p.28/44
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The simplest model of a finite-time singularity
1D fluid flow, v = v(x, t):
∂tv + v∂xv = 0
v = ω(t)x
ω + ω2 = 0
ω(t) =ω0
1 + ω0t
FTS:ω0 < 0 =⇒ ω(t) → ∞ as t→ 1/|ω0|
Flares and FTS – p.29/44
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Effect of the Hall term on the magnetic field
di > 0
t≪ 1:
α(t) ≈ 1 + (2γ0 + 2dih0)t
β(t) ≈ 1 − (2γ0 + 2dih0)t
The angle between the magnetic separatrices,ψ = 0:
tanθ
2=
(
β
α
)1/2
≈ 1 − (2γ0 + 2dih0)t
Flares and FTS – p.30/44
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Collapse to a current sheet:dih0 = +10−4
0.5 1 1.5 2 2.5 3t
2.55
7.510
12.515
ln Α
α(0) = β(0) = 1, γ(0) = γ0, f(0) = g(0) = 0
Flares and FTS – p.31/44
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Collapse to a current sheet:dih0 = +10−4
0.5 1 1.5 2 2.5 3t
-14-12-10-8-6-4-2
ln Β
α(0) = β(0) = 1, γ(0) = γ0, f(0) = g(0) = 0
Flares and FTS – p.32/44
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Collapse to a current sheet:dih0 = +10−4
0.5 1 1.5 2 2.5 3t
-5
5
10
15
lnHh diL
α(0) = β(0) = 1, γ(0) = γ0, f(0) = g(0) = 0
Flares and FTS – p.33/44
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Collapse to a current sheet:dih0 = −10−4
0.5 1 1.5 2 2.5 3t
-2
-1
1
2
3ln Α
α(0) = β(0) = 1, γ(0) = γ0, f(0) = g(0) = 0
Flares and FTS – p.34/44
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Collapse to a current sheet:dih0 = −10−4
0.5 1 1.5 2 2.5 3t
-3-2-1
123ln Β
α(0) = β(0) = 1, γ(0) = γ0, f(0) = g(0) = 0
Flares and FTS – p.35/44
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Finite-time singularity: a mechanical analogy
FTS: h(t) → ∞ as t→ ts
h+ U ′(h) = 0
U(h) = −1
2(d2
ih4 + a2h2) +
1
2(d2
ih4
0+ a2h2
0) − 8(α0g0 + β0f0)
2
a2 = −2[4di(α0g0 − β0f0) − 8α0β0 + d2
ih2
0]
Flares and FTS – p.36/44
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Finite-time singularity: a mechanical analogy
Flares and FTS – p.37/44
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Criterion for the FTS absence
α0β0(α0 + dif0)(β0 − dig0) ≥ 0
di(α0g0 − β0f0) − 2α0β0 ≥ 0
(Litvinenko and McMahon, 2014)
Flares and FTS – p.38/44
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Behaviour near the singularity (h > 0)
τ = (ts − t) → 0, Γ =
∫ t
0
γ(t′)dt′ → Γs
α ≈ 1
4(β0 − dig0)exp(2Γs)τ
−2
β ≈ 4α0β0(β0 − dig0) exp(−2Γs)τ2
dif ≈ − 1
4(β0 − dig0)exp(2Γs)τ
−2
dig ≈ −(β0 − dig0) exp(−2Γs)
dih ≈ τ−1
Flares and FTS – p.39/44
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An intermediate asymptotic solution
h(t) ≈(
h0 cosh(at) +h0
asinh(at)
)
×
1 − d2
i
16a2
(
h0 +h0
a
)2
exp(2at)
−1
Singularity time,h(ts) = ∞:
ts =1
2aln
16a2
d2
i
(
h0 +h0
a
)
−2
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Homework problem
Find an exact solution forh(t) in terms of Jacobi elliptic functions.
Flares and FTS – p.41/44
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Solar flares as finite-time singularities?
Flares and FTS – p.42/44
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An estimate for the solar flare onset time
L = 109.5 cm, T = 106 K, n = 109 cm−3,
B = 102 G, vA =B
√
4πmpn≃ 109 cm s−1
di =c
Lωpi
≃ 10−6.5
a ≃ h0 ≃ 1 =⇒ ts ≃L
vA
ln1
di
≃ 30 s
Flares and FTS – p.43/44
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Summary
Observational data and theoretical models strongly suggest thatreconnecting current sheets, separating the interacting magneticfluxes in the solar atmosphere, play the key role in thedynamics and energetics of solar flares.
The current sheet formation can be modelled as thedevelopment of a singularity in the solution for the electriccurrent density at a magnetic neutral line. A finite-time collapseto the current sheet can occur in a weakly collisional plasma,described by Hall magnetohydrodynamics.
Predictions made using the exact self-similar solutions mayhave important implications for magnetic reconnection in thelaboratory and space plasmas.
Flares and FTS – p.44/44