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The Hard Question - How do Reconnection Physics and Macroscale Dynamics Cooperate in Determining Global System Behavior? ●For example, in the case of CMEs.

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Presentation on theme: "The Hard Question - How do Reconnection Physics and Macroscale Dynamics Cooperate in Determining Global System Behavior? ●For example, in the case of CMEs."— Presentation transcript:

1 The Hard Question - How do Reconnection Physics and Macroscale Dynamics Cooperate in Determining Global System Behavior? ●For example, in the case of CMEs and substorms does rapid macroscale motion precede rapid reconnection or vice versa? ●In the case of the interaction between the solar wind and the magnetosphere is the transpolar voltage set by local reconnection physics or by a whole body interaction? ●Or do reconnection physics and macroscale dynamics interactively determine the outcome?

2 Forbes CME model Regarding CMEs, a macroscale instability leads to reconnection in the Forbes model

3 Hones substorm model The community conceptual model of a substorm has slow evolution leading to the onset of rapid reconnection

4 Time = 2:14 Time = 2:22Time = 2:24 Triggered Substorm Using OpenGGCM at CCMC What do macroscale MHD simulations say in this case? Does rapid reconnection precede motion or vice versa? Vice versa

5 Axford Conjecture Reconnection takes place at a rate determined by external boundary conditions. Examples: Dayside magnetopause reconnection CME reconnection (some models)

6 -33 kV33 kV ISM-MHD IMF Clock Angle 180 o Potential Weimer-Empirical Empirical ~ 1.1 x ISM-MHD

7 Raeder: 0.63 Weimer: 0.61 Ridley: 0.50 A Particularly Good Case models appear to match smoothed v y (100s) best

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