Add to ORKGProgress is reported in the development of a global, 3-D magnetohydrodynamic computational model to quantitatively describe the detailed continuum field and plasma interaction process of the solar wind with cometary and planetary magneto/ionopause shapes. Activities described include enhancements to the present Level 1 model, development of the 3-D gas dynamic flow field solvers for the Level 2 model, and continued development of the 3-D frozen magnetic field solver for the Level 2 model
The solar corona, the hot, tenuous outer atmosphere of the Sun, exhibits many fascinating phenomena ...
The interaction of the solar wind with terrestrial planets can be predicted using a computer program...
Toward the integrated numerical space weather prediction, we have been developing a three dimensiona...
The development of a global, 3-D magnetohydrodynamic computational model is described. This model is...
We present a new compressible MHD model for simulating the three-dimensional structure of the solar ...
A computational model was developed for the determination of the plasma and magnetic field propertie...
The investigations undertaken in this report relate to studies of various solar wind interaction phe...
A computational model for the determination of the detailed plasma and magnetic field properties of ...
This is the final report summarizing the work done during the last three years under NASA Grant NAG5...
Two dimensional and three dimensional MHD equilibrium models were begun for Earth's magnetosphere. T...
Space-environment simulations, particularly those involving space plasma, present significant comput...
We have continued our modeling of the solar wind/magnetosphere interaction for steady solar Wind con...
Toward the integrated numerical space weather prediction, we have been developing a three dimensiona...
The overall objective of the proposed research was to use numerical solutions of the magnetohydrodyn...
The overall objective of this research program is to obtain a better understanding of the interactio...
The solar corona, the hot, tenuous outer atmosphere of the Sun, exhibits many fascinating phenomena ...
The interaction of the solar wind with terrestrial planets can be predicted using a computer program...
Toward the integrated numerical space weather prediction, we have been developing a three dimensiona...
The development of a global, 3-D magnetohydrodynamic computational model is described. This model is...
We present a new compressible MHD model for simulating the three-dimensional structure of the solar ...
A computational model was developed for the determination of the plasma and magnetic field propertie...
The investigations undertaken in this report relate to studies of various solar wind interaction phe...
A computational model for the determination of the detailed plasma and magnetic field properties of ...
This is the final report summarizing the work done during the last three years under NASA Grant NAG5...
Two dimensional and three dimensional MHD equilibrium models were begun for Earth's magnetosphere. T...
Space-environment simulations, particularly those involving space plasma, present significant comput...
We have continued our modeling of the solar wind/magnetosphere interaction for steady solar Wind con...
Toward the integrated numerical space weather prediction, we have been developing a three dimensiona...
The overall objective of the proposed research was to use numerical solutions of the magnetohydrodyn...
The overall objective of this research program is to obtain a better understanding of the interactio...
The solar corona, the hot, tenuous outer atmosphere of the Sun, exhibits many fascinating phenomena ...
The interaction of the solar wind with terrestrial planets can be predicted using a computer program...
Toward the integrated numerical space weather prediction, we have been developing a three dimensiona...