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Center for Space Environment Modeling Ward Manchester University of Michigan Yuhong Fan High Altitude Observatory SHINE July.

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Presentation on theme: "Center for Space Environment Modeling Ward Manchester University of Michigan Yuhong Fan High Altitude Observatory SHINE July."— Presentation transcript:

1 Center for Space Environment Modeling http://csem.engin.umich.edu Ward Manchester University of Michigan Yuhong Fan High Altitude Observatory SHINE July 11, 2005 Kona, Hawaii The Source of Magnetic Shear That Drives CMEs

2 Center for Space Environment Modeling http://csem.engin.umich.edu Velocity and Magnetic Shear in AR 10486 Source of the Halloween Events  Velocity Shear Yang et al. 2004, ApJ 617 L151, Magnetic Shear Liu et al. 2005 ApJ 622, 722

3 Center for Space Environment Modeling http://csem.engin.umich.edu Magnetic Shear Indicated by Ha Filaments  AR 9236

4 Center for Space Environment Modeling http://csem.engin.umich.edu Magnetic Shear in the Corona seen by TRACE  AR 9026 before and after a CME  Liu et al. 2005, ApJ 622, 722

5 Center for Space Environment Modeling http://csem.engin.umich.edu Magnetic Shear in the Corona: X-Ray Sigmoids  Moore et al. 2001, ApJ 552, 833

6 Center for Space Environment Modeling http://csem.engin.umich.edu CME Models Including Photospheric Shear Magnetic Arcade Models  Imposed shearing of foot points with magnetic reconnect at the base of the arcade (Mikic 1988, Mikic and Linker 1994, Choe and Lee 1996, Amari 2003)  Break-out model: Imposed shearing motions and reconnection above the arcade in a quadruple system

7 Center for Space Environment Modeling http://csem.engin.umich.edu Emergence of a 3D flux rope  Manchester et al. 2004, ApJ 610, 588 Initial state from Fan 2001, ApJ 554 L111

8 Center for Space Environment Modeling http://csem.engin.umich.edu Flux Rope Emerging From the Convection Zone into the Corona  Initial state from Fan (2001)  Buoyant section of the flux rope reduced by a factor of two

9 Center for Space Environment Modeling http://csem.engin.umich.edu Spontaneous Shearing Motions  Opposite sides of the flux rope move in opposite directions as the flux rope expands.  Motions are driven by the Lorentz force!

10 Center for Space Environment Modeling http://csem.engin.umich.edu Tension component of the Lorentz Force Drives the Shearing!!  Shearing motions transport Bx flux into the expanding portion of the flux rope and tends to return Bx to constant values along field lines to restore force balance  Loss of equilibrium occurs from a shearing catastrophe when the field traverses many pressure scale heights and Bx can not be equilibrated

11 Center for Space Environment Modeling http://csem.engin.umich.edu

12 Center for Space Environment Modeling http://csem.engin.umich.edu Eruption of a Magnetic Field Line The field line locally eruption where the field line is being sheared and propagates as a shear Alfven wave along the field line.

13 Center for Space Environment Modeling http://csem.engin.umich.edu Shearing motions are a transport process! Axial Flux Transport Energy Transport (Poynting Flux)

14 Center for Space Environment Modeling http://csem.engin.umich.edu Comparison of Shear Velocity The image on the left, the shear velocity at the mid-plane of the simulation is shown. On the right, Doppler velocity maps of active regions at the limb made with SUMER Chae et al. 2000, ApJ 533, 535,

15 Center for Space Environment Modeling http://csem.engin.umich.edu Formation of a Sigmoid Current Sheet To the left, an iso-surface of current density and field lines are shown over the photosphere colored to show Bz. To the right, observations of X-ray sigmoids by Moore et al. (2001)

16 Center for Space Environment Modeling http://csem.engin.umich.edu Conclusions  Shearing motions are an inevitable consequence of the Lorentz force that arises as the magnetic field expands in a highly stratified atmosphere which naturally explains:  Coincidence of the magnetic neutral line and the velocity neutral line  Impulsive nature of shearing in newly emerged flux  Magnitude of the shear velocity in the photosphere, chromosphere and corona that occur at a characteristic fraction of the local Alfven speed.  The large scale pattern of shear in active regions which increases with proximity to the neutral line  Shearing motions transport axial flux into expanding portion of the flux rope and strongly couple the low  corona to the high  photosphere and below  The eruption of the flux rope and arcade occur with shearing motions and reconnection explains CMEs and flares  Multiple (homologous) eruptions from arcades that occur as a slow build up and expansion followed by eruption  Formation of a sigmoid shaped current-sheet  The force-free paradigm is incorrect. With a more complete model of magnetic field traversing a large range of plasma beta, the ad hoc application of shearing motions can be put to rest

17 Center for Space Environment Modeling http://csem.engin.umich.edu Fundamental Assumptions  The Sun possesses a gravitational field that results in large pressure stratification of the atmosphere  Non-force-free magnetic structures pass that through the photosphere into the corona to form active regions are larger than pressure scale height at the photosphere (140 km)  Magnetic field possess a horizontal axial component in addition to an azimuthal component  The Lorentz force can be represented by (curl B) X B  Applies to arcades and flux ropes

18 Center for Space Environment Modeling http://csem.engin.umich.edu

19 Center for Space Environment Modeling http://csem.engin.umich.edu

20 Center for Space Environment Modeling http://csem.engin.umich.edu Shear-Driven Arcade Eruption

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