Riding with SpaceX’s Transporter-13 mission, NASA’s EZIE CubeSats will unlock the mysteries of auroral electrojets. These ...

Pictures may enliven us, but other data, such as information about magnetic fields, add a huge amount to our understanding of ...

Continent-sized structures of mineral protruding from the lower mantle towards Earth's outer core may be contributing to an ...

The researchers used real-time data from the MMS, THEMIS, and ARTEMIS missions about how the solar wind interacted with the earth’s magnetosphere and about the upstream plasma environment near ...

FAST (Earth's aurora), THEMIS (Earth's magnetosphere), RBSP (Earth's radiation belts), MMS (magnetic reconnection mission), and MAVEN (Mars atmosphere). We also contribute to STEREO (solar wind) and ...

At planetary scale, Earth’s magnetic field induces such a current ... Sometimes the sun emits large bursts of magnetized solar plasma, called coronal mass ejections, which can cause major disturbances ...

High above Earth's poles, powerful electrojets create mesmerizing auroras but also pose risks like power outages. NASA’s ...

Dust and rocks residing on the surface of the moon take a beating in space. Without a protective magnetosphere and atmosphere ...

It took 250 years for the Laschamps reversal to take place and it stayed in the unusual orientation for about 440 years. At most, Earth's magnetic field may have remained at 25 percent of its current ...

Cole graduated in 2020 from Boston College with a Bachelor of Science in Physics, having done research in the solar input to ionospheric total electron content and the Earth's ionosphere-magnetosphere ...