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CTIPe (4.1)

Coupled Thermosphere Ionosphere Plasmasphere Electrodynamics Model

Model Description 

The Coupled Thermosphere Ionosphere Plasmasphere Electrodynamics Model (CTIPe) model consists of four distinct components:

-A global thermosphere model;
-A high-latitude ionosphere model;
-A mid and low-latitude ionosphere/plasmasphere model;
-An electrodynamical calculation of the global dynamo electric field.

All four components of the CTIPe are run concurrently and are fully coupled with respect to energy, momentum, and continuity.

The thermospheric code simulates the time-dependent global structure of the wind vector, temperature, and density of the neutral thermosphere by numerically solving the non-linear primitive equations of momentum, energy, and continuity on a 3D spherical polar grid rotating with the Earth. The latitude resolution is 2 deg, longitude resolution is 18 deg, and the vertical direction is divided into 15 levels in logarithm of pressure from lower boundary of 1 Pa at 80 km altitude. The equation of motion includes Coriolis effects, horizontal pressure gradients, horizontal and vertical viscosity, and ion drag. The non-linear energy equation describes horizontal and vertical advection of energy, horizontal and vertical heat conduction by both molecular and turbulent diffusion, heating by solar UV and EUV radiation, cooling by infrared radiation, and ionospheric Joule heating. The continuity equation incorporates three major species: atomic oxygen, molecular nitrogen and molecular oxygen and include chemistry, transport and the mutual diffusion between species.

The high-latitude ionosphere convection model calculates field-aligned ion velocity components from the field-aligned momentum equation. The model includes chemistry, gravity, and ion-ion and ion-neutral collisional drag. The ionosphere is computed self-consistently with the thermosphere pole-ward of 23 degrees latitude in both hemispheres. Transport under the influence of magnetospheric electric fields is explicitly treated, assuming ExB drifts and collisions with neutral particles.

The plasmasphere model solves coupled equations of continuity, momentum and energy balance along many closed flux tubes concurrently. The orientation of flux tubes is determined by eccentric dipole approximation to the Earth's magnetic field. Each flux-tube is subject to ExB drift.

Model Figure(s) :

  • CTIPe 4.1 Sample Output Diagram 1
  • CTIPe 4.1 Sample Output Diagram 2

    • Model Inputs Description 

    
	
	
	
	
    Model Outputs Description
		
	
    
	
    
	
	
	
	
    Model Caveats
		
	
    
	
    
	
	
	
	
    Change Log
		
	
    
	
    Lower boundary condition: with WAM climatological fields (monthly mean zonal, meridian, and temperature)


    
	
	 
	
    Model Acknowledgement/Publication Policy (if any)
		
	
    
	
    
	
	
	
    Model Domains:
		
	
    
	
		Global_Ionosphere
    
	
		Thermosphere
    
	
	
	
    Space Weather Impacts:
		
	
    
	
		Ionosphere variability (navigation, communications)
    
	
		Atmosphere variability (satellite/debris drag)
    
	
	
	
    Phenomena :
    
	
		Variablility_of_Plasma_Density
    
	
		Atmosphere_Expansion
    
	
		Neutral_Composition_Change
    
	
		Neutral_Wind_Change
    
	
		Ion_Drift_Velocity
    
	
		Equatorial_Anomaly
    
	
		Traveling_Ionospheric_Disturbances
    
	
		Traveling_Atmospheric_Disturbances
    
	

	
    Simulation Type(s):
		
	
    
	
		Physics-based
    
	
		
	
    Temporal Dependence Possible? (whether the code results depend on physical time?)
		
	
    
		true
    
		
    
    Model is available at? 
    	
	
    
		CCMC
    
		
	
    Source code of the model is publicly available?
    
		false
    
		
	 
    CCMC Model Status (e.g. onboarding, use in production, retired, only hosting output, only source is available): 
    	
	
    
		production
    
	
	
    Code Language: 
		
	
    
		Fortran
    

	
    Regions (this is automatically mapped based on model domain):
    
	
		Earth.NearSurface.Ionosphere
    
	
		Earth.NearSurface.Thermosphere
    
	
	
	
    
		Contacts
		
		:
	
    
	
		Tim.Fuller-Rowell, ModelContact 
		
    
	
		Mihail.Codrescu, ModelContact 
		
    
	
		Jia.Yue, ModelHostContact 
		
    
	
		Yuta.Hozumi, ModelHostContact 
		
    
	
		Katherine.Garcia-Sage, ModelHostContact 
		
    
	

	
    
		Acknowledgement/Institution
		
		:
	
    
	
		
			
				NOAA SEC
			
			
		
		
		
    
	

	
	
	
    
		Relevant Links
		
		:
	
    
	

	
    
		Publications
		
		:
	
    
	

	
    
		Model Access Information
		
		:
	
    
	
		Access URL: https://ccmc.gsfc.nasa.gov/requests/IT/CTIPe/user_reg.php?model_name=CTIPe  
    
		
		Access URL Name: Runs-on-Request
    
		
		Repository ID: spase://CCMC/Repository/NASA/GSFC/CCMC
    
		Availability: online
    
		AccessRights: OPEN
    
		Format: HTML
    
		Encoding: None
    		  
		
    
	
		Access URL: https://iswa.gsfc.nasa.gov/iswa_data_tree/model/ionosphere/CTIPe4.X/  
    
		
		Access URL Name: Continuous/RT Run (ISWA data tree)
    
		
		Repository ID: spase://CCMC/Repository/NASA/GSFC/CCMC
    
		Availability: online
    
		AccessRights: OPEN
    
		Format: HTML
    
		Encoding: None
    		  
		
    
	
		Access URL: https://iswa.ccmc.gsfc.nasa.gov/IswaSystemWebApp/index.jsp?i_1=691&l_1=350&t_1=368&w_1=900&h_1=520&s_1=0  
    
		
		Access URL Name: Continuous/RT Run (ISWA layout)
    
		
		Repository ID: spase://CCMC/Repository/NASA/GSFC/CCMC
    
		Availability: online
    
		AccessRights: OPEN
    
		Format: HTML
    
		Encoding: None
    		  
		
    
	
	
	
    
		Linked to Other Spase Resource(s) (example: another SimulationModel)
		
		:
	
    
	
	
	


            		
    
    
    
    
        
            




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