Solar storms and other space weather events have the potential to impact society on a national or global scale, and University of Michigan researchers lead two multi-million-dollar projects to improve forecasting.ย
These torrents of charged particles and electromagnetic fields from the Sun can damage power lines and satellites, and even astronauts. The National Science Foundation and NASA are investing $17 million in a program to develop next-generation space weather modeling software, NSF announced today (https://www.nsf.gov/news/spec
U-M faculty members lead two $2.9 million projects. NextGen Space Weather Modeling Framework project, funded by NSF, aims to accurately predict solar storms and coronal mass ejections a full day in advance. And Aether, funded by NASA, aims to improve models of Earthโs upper atmosphere.ย
โOther than a pandemic, a space weather-caused disruption is the only natural threat that would have nationwide impacts,โ said Gabor Toth, a research professor of climate and space sciences and engineering and principal investigator on the space weather modeling framework project. โAll other natural disasters — hurricanes, earthquakes, volcano eruptions — are localized. So itโs imperative that we prepare and improve our warning systems.
โIf we know what to expect and when, most consequences of space weather can be avoided. The power grid can be shut down, for example. Satellites can be put into safe mode. Spacewalks can be delayed. Sensitive electronic equipment can be switched off. GPS-reliant technology can be switched off or not used.โ
The one-day advance forecasts Toth and his team are working on will be a dramatic improvement from the 1-hour or 30-minute warning we receive today. To accomplish this, the team is developing a model that starts at the Sun itself, rather than much closer to Earth. Most of todayโs models start about a million miles from our planetโs surface at whatโs called the first Lagrangian point.ย
While models starting from the Sun do exist today, theyโre not very accurate and they provide a binary, black-and-white outlook, with no probabilities. The U-M approach will show the likelihood of storms.ย
โWe will provide probability distribution to aid decision makers. Similar to how terrestrial weather forecasts say that there is a 30% chance of rain tomorrow, as opposed to simply โno rain tomorrow,โโ Toth said.
The Aether project, which involves researchers from several other institutions, is led by Aaron Ridley, U-M professor of climate and space sciences and engineering. Its aim is to make a better model of the Earthโs upper atmosphere that lets scientists see simultaneously whatโs happening on both a broad scale, and in more granular detail. It will also be able to incorporate data from disparate sources such as constellations of satellites. The team is also working to reduce the barriers for students and postdocs to learn how to use the models by hosting summer schools and making lessons.
โThere are some fundamental limitations with current models,โ Ridley said.ย
He pointed to various structures in the aurora that are narrow or intense and add a lot of energy to the atmosphere, heating it up. Itโs difficult to capture how this affects the atmosphere in current models. Ridleyโs team will design a new model grid system to change that.
โThis is sort of analogous to trying to model hurricanes in a global weather model,โ he said. โIt can be done, but needs a huge amount of computer resources. It is better to have a nested grid that can capture the hurricane, embedded within the global-scale model.โ
U-M is a leader in the study of the Sun and space weather. An earlier model developed by Toth and others in the Climate and Space Sciences and Engineering department is currently used by the national Space Weather Prediction Center to provide regional forecasts for 350-square-mile plots of Earthโs surface.ย
โU-M has a long tradition of developing high quality computational models and software for space and plasma physics,โ says Vyacheslav Lukin, NSF program director in the Division of Physics. โThese awards will enable U-M research groups to both reimagine the software for tomorrowโs supercomputing hardware, and make the new codes widely available to be used and further improved upon by the global space weather modeling community.โ