Difference between revisions of "Storm 1: 2016 Mar 4-9 (64-68)"

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- N/S high-latitude ionosphere Models:
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- High-Latitude Ionosphere Models:
  
 
* Topside ion upflow
 
* Topside ion upflow
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- N/S Polar Wind Models:
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- Polar Wind Models:
  
 
* 2D Ion outflow flux at 2.5 Re
 
* 2D Ion outflow flux at 2.5 Re
  
 
* 2D Ion N, V, T at 2.5 Re
 
* 2D Ion N, V, T at 2.5 Re

Revision as of 13:17, 24 February 2017

M3-I2 Community Storm Study #1


Storm #1: 2016 Mar 4-9 (64-68) KDst = -98, Kp=6.3, F10.7=96, F107A=90

We propose modeling and measuring the two quiet days prior to the storm (4,5), the day of the storm main phase (6), and two recovery days (7,8).

The choice of this storm is based on the excellent measurement support of ground-based instrumentation and the reasonable support of magnetospheric satellites (MMS, Van Allen Probes). I choosing these two recent storms to encourage other validation focus groups within NSF-GEM and NSF-CEDAR communities to join in these model-measurement studies. This invitation includes magnetosphere, inner magnetosphere, ring current, polar wind outflow, high-latitude ionosphere & electrodynamics, and the full coupled system.

Merged Modeling & Measurement of Injection Ionospheric Plasma into the Magnetosphere (M3I2) and Its Effects -- Plasma Sheet, Ring Current, Substorm Dynamics M3-I2 Home Page


The M3-I2 focus group leaders are committed to helping the GEM/CEDAR community in the collection of reduced data sets including ground-based and space-based data sets:


- Space-based:

  • AMPERE currents
  • DMSP j/4 electron precipitation & cross-track drifts
  • MMS
  • Van Allen Probes
  • Other satellites as available (Geotail, THEMIS, ...)


- Ground-based:

  • Magnetometers
  • Incoherent Scatter Radar Ne, Te, Ti profiles
  • SuperDARN line-of-sight
  • TEC



The M3-I2 focus group leaders are also committed to helping the GEM/CEDAR community in the merging of models and sharing of results. We anticipate several nominal output fields but are open to new suggestions of important shared fields and benchmark results.


-Magnetosphere Models:

  • MMS, THEMIS, GEOTAIL predictions as available


-Inner Magnetosphere Models:

  • Calculated Dst and Ring Current
  • 2D Ne, [O+], [H+], [He+] densities in equatorial plane
  • Van Allen Probe predictions of HOPE instrument


- High-Latitude Ionosphere Models:

  • Topside ion upflow
  • Ionospheric convection potential
  • Electron precipitation
  • TEC Structure


- Polar Wind Models:

  • 2D Ion outflow flux at 2.5 Re
  • 2D Ion N, V, T at 2.5 Re
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