Using magnetotelluric data to identify subsurface electrically conductive and resistive areas, scientists can identify underground features and predict how space weather may affect infrastructure.| Eos
Coupling an AI-driven model of the atmosphere with a model of the ocean could help scientists create highly efficient emulations of the entire Earth system.| Eos
Until recently, this type of zigzag shape—formed by energetic rearrangement of magnetic field lines—had been seen only near the Sun.| Eos
As more cities strive to meet climate goals, space-based observations may help fill in the gaps on tracking emissions.| Eos
Using paleomagnetic samples collected along the shores of Lake Superior, a new study illuminates the movement of a billion-year-old paleocontinent as it crept south toward a tectonic collision.| Eos
Throughout recent years, the Wyss’ Validation Project mechanism has proven to be a highly valuable instrument for selecting and kick-starting projects with early potential for positive impact on healthcare and the environment. Reaching deep into areas with major unmet needs across the diverse Grand Challenges laid out by the Institute, the newly selected projects are...| Wyss Institute
Data captured by the Emirates Mars Mission reveal that clouds are typically thicker during Martian nighttime than daytime.| Eos
A bottom-up modeling approach could bring scientists closer to understanding communities of microbes in the atmosphere.| Eos
A computer vision technique modified to scan climate model data is helping scientists predict where and when rapid climatic shifts will happen in the future.| Eos
