Global Magnetosphere Real Event Analysis from Runs on Request     (VMR Tools)
Analysis of Run: Pauline_Dredger_101221_1 | |
Satellite Data Available |
Data-Model Comparison |
Model on Satellite Track |
Run information: |
|
|
|
View standard CCMC run page. | ?? |
Event Date | | September 26, 2011 |
Start Time | | 2011/09/26 07:00 |
End Time | | 2011/09/26 19:00 |
Key Words | | magnetopause conductance |
Model | | LFM |
Model Version | | LTR-2_1_5 |
Validation Level | | 0 |
Coordinate System for Input | | GSM |
Coordinate System for Output | | SM |
Dipole Tilt, in the X-Z Plane, at Start deg | | -10.54 |
Dipole Tilt, in Y-Z GSE plane, deg | | -29.10 |
Update Dipole Orientation with Time | | yes |
Inflow Boundary R_E | | 30 |
F10.7 | | 0.00000 |
Conductance Model | | constant |
Corotation | | real |
Run Number | | Pauline_Dredger_101221_1 |
Minimum Dst Value | | -89 |
SW Source | | OMNI |
Diagnostic Indices | | NO |
|
View interactive javascript plot of satellite positions during this run in a new window.
Model values plot for THEMIS-C for time period of this run.
Choose variable to plot:
![](data: image/png;base64,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)
| VMR Tools created by Darren De Zeeuw. |