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Space Weather Modeling Framework

Most of the time, the Sun’s continuous emission of magnetic energy and plasma has only a minimal effect on the Earth. However, occasionally a solar magnetic eruption can occur that sends a shock wave through our solar system. Should this shock wave impact our planet, many man made technological systems can be catastrophically damaged. To be better prepared, Michigan researchers are continuously developing and improving the Space Weather Modeling Framework. This software framework has the capability to model the solar wind emanating from the Sun all the way to its interaction with Earth’s magnetosphere and the impact on the surface of the Earth. As they detect and model the Sun’s behavior our ability to predict when a severe space weather event will happen is further improved, and we are also that much safer from the disasters that occur when our power grids, communication systems and satellites are disrupted by the effects of solar magnetic eruptions. Both NOAA and NASA have taken Michigan's advanced simulation capability and adapted it to a real time space weather forecasting tool.

About the Researchers:

Research Professor Gabor Toth’s research interests include algorithm and code development for space and plasma physics simulations. He has a leading role in the development of the Space Weather Modeling Framework and is the developer of the BATS-R-US code, a multi-physics and multi-application MHD code using block-adaptive grids. Toth is also the software architect for the Center for Radiative Shock Hydrodynamics. The center's work involves modeling radiative shocks created by high energy lasers.

Assistant Research Scientist Daniel Welling is a member of team that transitioned the Space Weather Modeling Framework from research to operations for NOAA’s Space Weather Prediction Center. The SWMF is now running in real-time mode on NOAA National Centers for Environmental Prediction supercomputers. Welling is also the leading researcher of the impact ionospheric outflow has on magnetospheric dynamics.

Research Associate Professor Ward Manchester’s research interests concern solar magnetism and magnetic flux transport from below the photosphere into the corona and through the heliosphere. Manchester has contributed to basic theory and modeling efforts with analytical work and large scale numerical simulations. Of particular interest to Professor Manchester are: magnetic flux emergence, magnetohydrodynamic instabilities, coronal mass ejection initiation and propagation, and global heliospheric structure.

Article topics: Climate Change , Space Weather , MconneX


About Michigan Engineering: The University of Michigan College of Engineering is one of the top engineering schools in the country. Eight academic departments are ranked in the nation's top 10 -- some twice for different programs. Its research budget is one of the largest of any public university. Its faculty and students are making a difference at the frontiers of fields as diverse as nanotechnology, sustainability, healthcare, national security and robotics. They are involved in spacecraft missions across the solar system, and have developed partnerships with automotive industry leaders to transform transportation. Its entrepreneurial culture encourages faculty and students alike to move their innovations beyond the laboratory and into the real world to benefit society. Its alumni base of more than 75,000 spans the globe.