large scale magnetic fields and dynamo theory roman shcherbakov, turbulence discussion group 14 apr...
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Large scale magnetic fields Large scale magnetic fields and Dynamo theoryand Dynamo theory
Roman Shcherbakov,Roman Shcherbakov,
Turbulence Discussion GroupTurbulence Discussion Group
14 Apr 200814 Apr 2008
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The EarthThe Earth Mainly dipolar magnetic field Mainly dipolar magnetic field Would decay in 20kyr if not regeneratedWould decay in 20kyr if not regenerated Declination of the dipole axis – 11.5° (at present)Declination of the dipole axis – 11.5° (at present) Strength – B=0.3-0.6G (at present)Strength – B=0.3-0.6G (at present) Field reversal – interchange of North/South poles, last ~300-3000yrField reversal – interchange of North/South poles, last ~300-3000yr Field Field excursionexcursion – decrease of B to – decrease of B to 0-20% of normal0-20% of normal, last ~3000yr-0.03Myr, last ~3000yr-0.03Myr
http://solar.physics.montana.edu/ypop/Spotlight/Magnetic/what.html Buffett, 1999 Nature 401, 861
There are successful simulations: Glatzmaier, Roberts 1996+
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The SunThe Sun Strong non-dipolar magnetic fieldStrong non-dipolar magnetic field
Typical field strength – B~1G, up to 1000G in Typical field strength – B~1G, up to 1000G in active regionsactive regions
Field reversal – 22-year cycle, sunspots – 11-Field reversal – 22-year cycle, sunspots – 11-year cycle (7-15 years for period)year cycle (7-15 years for period)
Has irregular outflows driven partially byHas irregular outflows driven partially by magnetic reconnectionsmagnetic reconnections
Differential rotation – 25 days (equator) vs 35 Differential rotation – 25 days (equator) vs 35 days (pole)days (pole)
http://www.spacedaily.com/reports/The_Magnetic_Fields_of_Planets_and_Stars_999.html
http://stargazers.gsfc.nasa.gov/students/why_do_sunspots.htm
Models only with fitted parameters explain observations
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Coronal mass ejectionsCoronal mass ejections
Fan 2001, ApJ, 554, L111
http://www.space.com/businesstechnology/technology/technovel_shock_041105.html
Credit: SOHO Consortium, ESA, NASA
May be the constituent part of dynamo
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Energy sourcesEnergy sourcesThe Earth and planets
Radioactive decay – Latent heat & light constituents
release – inner core freezing Precessionally driven flows Tidal heating
The Sun and stars
Nuclear burningDynamical interactions in binariesPrimordial magnetic field
Convection
Inducedflows
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Convection in rotating mediumConvection in rotating medium
case2_movie.gifcase3_movie.gif
Rotation decreases convective efficiency
Back-reaction of convection accelerates rotation
Differential rotation
Dynamo action
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Timescales and their ratiosTimescales and their ratios
Ekman numberEkman number
Reynolds number Reynolds number
Prandtl numberPrandtl number (magnetic)(magnetic)
Rayleigh number Rayleigh number
Rossby numberRossby number
Onset of turbulence
Dominance ofcurrent dissipation
Size of the boundary layer
Onset of convection
Regime and efficiencyof dynamo
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Large scale of small scale?Large scale of small scale?
http://solar.physics.montana.edu/ypop/Spotlight/Magnetic/what.html
The Sun
Large scale
Small scaleLarge scale or small scale?
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Axisymmetric or 3D?Axisymmetric or 3D?
Credit & Copyright: Gary A. Glatzmaier (UCSC)
The Earth
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Theory of DynamoTheory of Dynamo
Force-free regime+diffusionTwisting and folding (Differential) rotation
cross-helicitykinetic helicity current helicity
Usually neglected
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Kinematic Kinematic αα-effect-effect
Then two possibilities:repeat along horizontal axis – dynamoshear along horizontal axis – dynamo
Yoshizawa, 2003
ωuαkin
u
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Kinematic Kinematic αα²-dynamo²-dynamo
u
u
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Kinematic and dynamic Kinematic and dynamic αΩαΩ dynamo dynamoBrandenburg, Subramanian, 2005
Strong back-reaction of the magnetic field inhibits dynamo
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Saturation of dynamosSaturation of dynamosBrandenburg, Subramanian, 2005, p.122
CD
D – quasi force-free state B²>>b²
CD – growth of large-scale field on Ohmic timescale (if no shocks)
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Large-scale magnetic field growthLarge-scale magnetic field growth
P. 108P. 108
Brandenburg, Subramanian, 2005, p.108
<u·ω>≠0 on average over large scale => symmetry breaking
forcingscale
Inverse cascade of magnetic helicity
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Force-free statesForce-free states
fielddecay
weak rotation
Braithwaite, Spruit 2004
Formation of a star
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Effect of open boundariesEffect of open boundaries
=Re·Pm
α–effect is NOT inhibited for open boundaries,unbalanced outflow of current helicity
Sun? Accretion disks?
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Accretion disk dynamoAccretion disk dynamo
Balbus, Hawley, 2003
MRI represents Ω-effect
Velocity in vertical direction =>
α-effect
Outflows, convection
Inverse cascade of magnetic helicity+advection of field
Large-scale field generation
Model with minimum dynamo action, dynamics, evolution of α, β, γ
Solution of the problem?Solution of the problem?
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Discussion & ConclusionsDiscussion & Conclusions Behavior of dynamical systems strongly depends on non-Behavior of dynamical systems strongly depends on non-
linear terms => proper non-linear model is essentiallinear terms => proper non-linear model is essential
In particular, solutions with outflows/stratification and vertical In particular, solutions with outflows/stratification and vertical structure (for disks) have finite structure (for disks) have finite αα => large-scale field generation => large-scale field generation
Proper treatment of boundary conditions and Proper treatment of boundary conditions and
helicity outflows is essentialhelicity outflows is essential
Shearing box simulations may not represent the global solutionShearing box simulations may not represent the global solution
One model should be made for accretion & the Sun/Earth,One model should be made for accretion & the Sun/Earth,
it is easier to test the model on the Sun/Earthit is easier to test the model on the Sun/Earth
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Convection+rotation=>tons of funConvection+rotation=>tons of funhttp://www.hao.ucar.edu/Public/research/siv.html
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ReversalsReversals
http://geomag.usgs.gov/intro.php
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Butterfly Butterfly ☠☠
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∞❆❆
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☭☭