A theoretical analysis of the energy budget in the lower thermosphere

Keyphrases

• Nitric Oxide 100%
• Lower Thermosphere 100%
• Energy Budget 100%
• Geomagnetic Activity 100%
• Adiabatic Expansion 100%
• Heat Conduction 66%
• Joule Heating 66%
• Solar Insolation 66%
• Nitric Oxide Cooling 66%
• University of Michigan 33%
• National Center 33%
• Cooling Rate 33%
• Three-dimensional Space 33%
• 3D Model 33%
• High Altitude 33%
• Low Altitude 33%
• Solar Cycle 33%
• Global Mean 33%
• Dickinson 33%
• Thermal Balance 33%
• Masking Effect 33%
• General Circulation Models 33%
• CO2 Increase 33%
• Low Latitude 33%
• Atmospheric Research 33%
• Temperature Reduction 33%
• Thermosphere-ionosphere 33%
• Anthropogenic CO2 33%
• Solar EUV 33%
• Solstice 33%
• Solar Maximum 33%
• Term Analysis 33%
• Anthropogenic Forcing 33%
• Mean Model 33%
• Thermodynamic Equation 33%
• Post-processor 33%
• Minor Species 33%
• Primary Cooling 33%
• Heat Advection 33%
• Solar Activity Variations 33%
• Natural Forcing 33%
• Geomagnetic Activity Dependence 33%

Earth and Planetary Sciences

• Nitric Oxide 100%
• Lower Thermosphere 100%
• Energy Budget 100%
• Solar Activity 40%
• Conductive Heat Transfer 40%
• Carbon Dioxide 40%
• Atmospherics 20%
• Morphology 20%
• Advection 20%
• General Circulation Model 20%
• Thermosphere 20%
• Michigan 20%
• Anthropogenic CO2 20%
• Solar Cycle 20%

Physics

• Lower Thermosphere 100%
• Nitric Oxide 100%
• Carbon Dioxide 60%
• Conductive Heat Transfer 40%
• Solar Activity 40%
• Atmospherics 20%
• Energetics 20%
• Advection 20%
• Thermosphere 20%
• Solar Cycle 20%