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Ovation-Prime/2.3/ROR/Michael_David_092424_IT_5

Run Description

CCMC ROR run for Ovation-Prime 2.3 with RORID Michael_David_092424_IT_5

Simulation Time:

Simulation Start Time: 2000-08-01T00:00:00Z
Simulation End Time: 2000-08-31T23:50:00Z
Time Step in second: 600
Simulation Time Description:
Simulation Time Caveats:

Temporal Dependence (whether the outputs of the simulation code are time-dependent?): true

Regions:

Earth.NearSurface.Ionosphere.Topside

Simulation Domain :

Contacts :

Michael.David, ModelUser

List of Run Input Parameter Grouping and their associated properties :

Name Description Caveats Properties
All settings for Ovation Prime model
All settings used to run Ovation Prime model
Name Description Caveats Units Default Value or Actual Value Valid Min Valid Max
solarwind
Property indicating whether solar wind is a fixed value ('fixed') or varies ('var', i.e., uploaded as a file or obtained from a data set).
var
sw_source
Property indicating source of solar wind data
OMNI
despike_solar_wind_data
Flag indicating whether to automatically de-spike solar wind (optional for automatically retrieved data only; use when solar wind data shown in next page have clusters of extreme values in plasma density, temperature or velocity).
False
despike.threshold
De-spike threshold (standard deviations)
sigmas 3 2 4
despike.number_of_samples
De-spike length (number of samples in cluster of extreme values to be eliminated)
7 3 9
b_abs
Magnitude of IMF
10.82
b_angle
IMF clock angle
51.63
Bx
Bx component of IMF (Interplanetary Magnetic Field). IMF is a geomagnetic index used in external magnetic field model computation. It corresponds to the part of the Sun's magnetic field that is carried into interplanetary space by the solar wind. The three orthogonal components of the IMF are Bx, By and Bz. Bx and By are oriented parallel to the ecliptic. The IMF is a weak field, varying in strength near the Earth from 1 to 37 nT, with an average value of about 6 nT.
nT -5.652
By
By component of IMF (Interplanetary Magnetic Field). IMF is a geomagnetic index used in external magnetic field model computation. It corresponds to the part of the Sun's magnetic field that is carried into interplanetary space by the solar wind. The three orthogonal components of the IMF are Bx, By and Bz. Bx and By are oriented parallel to the ecliptic. The IMF is a weak field, varying in strength near the Earth from 1 to 37 nT, with an average value of about 6 nT.
nT 8.484
Bz
Bx component of IMF (Interplanetary Magnetic Field). IMF is a geomagnetic index used in external magnetic field model computation. It corresponds to the part of the Sun's magnetic field that is carried into interplanetary space by the solar wind. The three orthogonal components of the IMF are Bx, By and Bz. Bx and By are oriented parallel to the ecliptic. The IMF is a weak field, varying in strength near the Earth from 1 to 37 nT, with an average value of about 6 nT.
nT 6.716
Vx
X component of plasma velocity
km/s -439.94
Vy
Y component of plasma velocity
km/s 28.459
Vz
Z component of plasma velocity
km/s 61.292
den
Plasma density
cm-3
temp
Plasma temperature
K
use_AP_from_archive
Flag indicating whether to use observed AP index from archive or calculate AP index from solar wind inputs
False
AP_index_value
Value of AP index
0
sw_link
Solar wind link
plot
SW_density_floor
Solar wind density floor value
SW_density_floor_was_applied
Flag indicating the solar wind density has been floored with SW_density_floor value to ensure that the model will run through the requested time interval.
False
minimum_SW_Fast-Mode_mach_number
Minimum solar wind Fast-Mode mach number
1.35
SW_parameters_are_large
Flag indicating whether solar wind velocity, density or dynamic pressure are large. If they are, the run is a special request requiring attention by CCMC staff. The variables will be accepted unless they exceed certain absolute maximum values.
SW_plot
Name of solar wind plot
Michael_David_092424_IT_5_sw.gif
dipole_update
True: Dipole Orientation is Consistent with the Real Time During The Simulated Time Interval. Dipole Orientation is Updated With Time. False: Dipole Orientation is Fixed to a select dipole tilt (-34 deg < tilt < 34 deg).
The Earth's dipole tilt is used as an input to Weimer model to calculate ionospheric potential used by CTIP. True
dipole_time
Dipole time
2000/08/01 00:00
dipole_tilt
Dipole tilt
deg 14.7629
dipole_tilt_y
Y component of dipole tilt
deg -4.95567
inflow_boundary
Upstream inflow boundary
0

Run Access Information :

Keyword(s) :

ovation 2000

Linked to Parent Spase Resource(s) (example: SimulationModel) :

spase://CCMC/SimulationModel/Ovation-Prime/2.3

List of Publications Referencing this Run :

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