the solar dynamo
DESCRIPTION
The solar dynamo. Axel Brandenburg. Importance of solar activity. Solar 11 year sunspot cycle. Sunspots between +/- 30 degrees around equator New cycle begins at high latitude Ends at low latitudes equatorward migration. butterfly diagram. Sunspots. Sunspots. Large scale coherence. - PowerPoint PPT PresentationTRANSCRIPT
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The solar dynamoThe solar dynamo
Axel BrandenburgAxel Brandenburg
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Importance of solar activityImportance of solar activity
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Solar 11 year sunspot cycleSolar 11 year sunspot cycle
• Sunspots between +/- 30 degrees around equator• New cycle begins at high latitude• Ends at low latitudes
– equatorward migration
butterfly diagram
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SunspotsSunspots
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SunspotsSunspots
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Large scale coherenceLarge scale coherence
Active regions, bi-polaritysystematic east-west orientationopposite in the south
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22 year magnetic cycle22 year magnetic cycle• Longitudinally averaged radial field
• Spatio-temporal coherence– 22 yr cycle, equatorward migration
Poleward branch orpoleward drift?
butterfly diagram
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-effect dynamos (large scale)-effect dynamos (large scale)
Differential rotation(faster inside) Cyclonic convection;
Buoyant flux tubesEquatorward
migration
New loop
-effect
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The Sun today and 9 years agoThe Sun today and 9 years ago
Solar magnetograms:Solar magnetograms:Line of sight B-field fromLine of sight B-field fromcircularly polarized lightcircularly polarized light
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Sunspot predictionsSunspot predictions
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Grand minima/maxima?Grand minima/maxima?
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Cycic Maunder mininum: Cycic Maunder mininum: 1010Be recordBe record
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Long time scales: different Long time scales: different oscillators instead of chaos?oscillators instead of chaos?
Saar & Brandenburg (1999, ApJ 524, 295)
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News from the 5 min oscillationsNews from the 5 min oscillationsD
isco
vere
d in
196
0 (L
eigh
ton
et a
l. 19
62)
Was thought to be response of upper atmosphere to convection
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Solar granulationSolar granulation
Horizontal size L=1 Mm, sound speed 6 km/s
Correlation time 5 min = sound travel time
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Degree Degree ll, order , order mm
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5 min osc are 5 min osc are globalglobal
Roger Ulrich (1970)
Franz-Ludwig Deubner (1974)
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GONGGONGglobal global
oscillation oscillation network network groupgroup
Since late 1980ties
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Current Current state of state of the artthe art
SOHOSpace craft1993 – nowlost in 1998
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Only p-modes observedOnly p-modes observed
0..;24
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g-modes g-modes
• Would probe the center
• Are evanescent in the convection zone
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RefractionRefractionReflectionReflection
Top: reflectionwhen wavenlength~ density scale height
Deeper down:Sound speed large
RT
cs 2
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Inversion: input/outputInversion: input/output
Duval law Sound speed
uuFu
G
GuuFu
0
0
d )(' 1
)(
d )(' )(
2
rknR
r
r d 0
0
22
2 )1(
r
ll
ck
sr
2
2
2
)1(
llu
c
r
s
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Internal angular velocityInternal angular velocity
R
nlnlm rrrm00
0 d d ,
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Internal angular velocityInternal angular velocityfrom helioseismologyfrom helioseismology
spoke-like at equ.d/dr>0 at bottom
? d/dr<0 at top
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Cycle Cycle dependencedependence
of of (r,(r,))
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In the days before In the days before helioseismologyhelioseismology
• Angular velocity (at 4o latitude): – very young spots: 473 nHz
– oldest spots: 462 nHz
– Surface plasma: 452 nHz
• Conclusion back then:– Sun spins faster in deaper convection zone
– Solar dynamo works with d/dr<0: equatorward migr
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Activity from the dynamoActivity from the dynamo
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Buoyant rise of flux tubesBuoyant rise of flux tubes
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A long path toward the A long path toward the overshoot dynamo scenarioovershoot dynamo scenario• Since 1980: dynamo at bottom of CZ
– Flux tube’s buoyancy neutralized– Slow motions, long time scales
• Since 1984: diff rot spoke-like– d/dr strongest at bottom of CZ
• Since 1991: field must be 100 kG– To get the tilt angle right
Spiegel & Weiss (1980)
Golub, Rosner, Vaiana, & Weiss (1981)
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The 4 dynamo scenariosThe 4 dynamo scenarios• Distributed dynamo (Roberts & Stix 1972)
– Positive alpha, negative shear• Overshoot dynamo (e.g. Rüdiger & Brandenburg 1995)
– Negative alpha, positive shear• Interface dynamo (Markiel & Thomas 1999)
– Negative alpha in CZ, positive radial shear beneath– Low magnetic diffusivity beneath CZ
• Flux transport dynamo (Dikpati & Charbonneau 1999)
– Positive alpha, positive shear– Migration from meridional circulation
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Paradigm shiftsParadigm shiftsi) 1980: magnetic buoyancy (Spiegel & Weiss)
overshoot layer dynamos
ii) 1985: helioseismology: d/dr > 0 dynamo dilema, flux transport dynamos
iii) 1992: catastrophic -quenching Rm-1 (Vainshtein & Cattaneo) Parker’s interface dynamo Backcock-Leighton mechanism
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(i) Is magnetic buoyancy a problem?(i) Is magnetic buoyancy a problem?
Stratified dynamo simulation in 1990Expected strong buoyancy losses,but no: downward pumping Tobias et al. (2001)
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(ii) Before helioseismology(ii) Before helioseismology• Angular velocity (at 4o latitude):
– very young spots: 473 nHz– oldest spots: 462 nHz– Surface plasma: 452 nHz
• Conclusion back then:– Sun spins faster in deaper convection zone– Solar dynamo works with d/dr<0: equatorward migr
Yoshimura (1975) Thompson et al. (1975)Brandenburg et al. (1992)
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Near-surface shear layer:Near-surface shear layer:spots rooted at spots rooted at r/Rr/R=0.95?=0.95?
Benevolenskaya, Hoeksema, Kosovichev, Scherrer (1999) Pulkkinen & Tuominen (1998)
nHz 473/360024360
/7.14
ds
do
o
=AZ=(180/) (1.5x107) (210-8)
=360 x 0.15 = 54 degrees!
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(iii) Problems with mean-field theory?(iii) Problems with mean-field theory?
• Catastrophic quenching?– ~ Rm
-1, t ~ Rm-1
– Field strength vanishingly small?
• Something wrong with simulations– so let’s ignore the problem
• Possible reasons:– Suppression of lagrangian chaos?– Suffocation from small scale magnetic helicity?
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Revisit paradigm shiftsRevisit paradigm shiftsi) 1980: magnetic buoyancy
counteracted by pumping
ii) 1985: helioseismology: d/dr > 0 negative gradient in near-surface shear layer
iii) 1992: catastrophic -quenching overcome by helicity fluxes in the Sun: by coronal mass ejections
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Arguments against and in favor?Arguments against and in favor?
• Flux storage• Distortions weak• Problems solved with
meridional circulation• Size of active regions
• Neg surface shear: equatorward migr.• Max radial shear in low latitudes• Youngest sunspots: 473 nHz• Correct phase relation• Strong pumping (Thomas et al.)
• 100 kG hard to explain
• Tube integrity
• Single circulation cell
• Too many flux belts*
• Max shear at poles*
• Phase relation*
• 1.3 yr instead of 11 yr at bot
• Rapid buoyant loss*
• Strong distortions* (Hale’s polarity)
• Long term stability of active regions*
• No anisotropy of supergranulation
in favor
against
Tachocline dynamos Distributed/near-surface dynamo
Brandenburg (2005, ApJ 625, 539)
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Application to the sun:Application to the sun:spots rooted at spots rooted at r/Rr/R=0.95=0.95
Ben
evol
ensk
a ya,
Hoe
kse m
a,K
o sov
iche
v, S
c her
rer
(199
9)
nHz 473/360024360
/7.14
ds
do
o
–Overshoot dynamo cannot catch up
=AZ=(180/) (1.5x107) (210-8)
=360 x 0.15 = 54 degrees!
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Simulating solar-like differential rotation Simulating solar-like differential rotation
• Still helically forced turbulence
• Shear driven by a friction term
• Normal field boundary condition
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Simulating solar-like differential rotation Simulating solar-like differential rotation
• Still helically forced turbulence
• Shear driven by a friction term
• Normal field boundary condition
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Cartesian box MHD equationsCartesian box MHD equations
JBuA
t
visc2 ln
D
DFf
BJu
sc
t
utD
lnD
AB
BJ
Induction
Equation:
Magn.Vectorpotential
Momentum andContinuity eqns
ln2312
visc SuuF
Viscous force
forcing function kk hf 0f (eigenfunction of curl)
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Tendency away from filamentary fieldTendency away from filamentary field
Cross-sections at different times
Mean field
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Current helicity and Current helicity and magn. hel. fluxmagn. hel. flux
Bao & Zhang (1998),neg. in north, plus in south
(also Seehafer 1990)
Berger & Ruzmaikin (2000)
cycle/Mx104 246S
NDeVore (2000)
cycle/Mx10 246
(for BR & CME)
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Magnetic HelicityMagnetic Helicity V
- VH d curl 1 BB
1
2
212 H
J. Chae (2000, ApJ)
+
+
- -
11
d d1
SL
H SBA
2 d2
S
SA 1
AB
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Helicity fluxes at large and small scalesHelicity fluxes at large and small scales
Negative current helicity:net production in northern hemisphere
SJE d2 Sje d21046 Mx2/cycle
Brandenburg & Sandin (2004, A&A 427, 13)
Helicity fluxes from shear: Vishniac & Cho (2001, ApJ 550, 752)Subramanian & Brandenburg (2004, PRL 93, 20500)
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Simulations showing large-scale fieldsSimulations showing large-scale fieldsHelical turbulence (By) Helical shear flow turb.
Convection with shear Magneto-rotational Inst.
1t
21t
kc
k
Käp
yla
et a
l (20
08)
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Origin of sunspotOrigin of sunspot
Theories for shallow spots:Theories for shallow spots:(i) Collapse by suppression(i) Collapse by suppression
of turbulent heat fluxof turbulent heat flux(ii) Negative pressure effects(ii) Negative pressure effects
from <from <bbiibbjj>-<>-<uuiiuujj> vs > vs BBiiBBjj
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clockwise tilt(right handed)
left handedinternal twist
Build-up & release of magnetic twistBuild-up & release of magnetic twist
New hirings:New hirings:• 4 PhD students4 PhD students• 4 post-docs (2yr)4 post-docs (2yr)• 1 assistant professor1 assistant professor• 2 Long-term visitors2 Long-term visitors
Upcoming work:Upcoming work:• Global modelsGlobal models• Helicity transportHelicity transport• coronal mass ejectionscoronal mass ejections• Cycle forecastsCycle forecasts
Coronal mass ejectionsCoronal mass ejections