ESA's Swarm mission, utilizing the faint magnetic signals generated by Earth's ocean tides, offers groundbreaking insights ...

As sunspots emerge on the sun's surface close to its equator, their orientations will match the old magnetic field, while ...

A study using data from ESA's Swarm mission suggests that faint magnetic signatures created by Earth's tides can help us ...

Swarm satellites detect faint ocean magnetic signals, revealing magma distribution and climate change insights.

Peculiar bursts of energy called chorus waves have been detected in deep space far from our planet ... in the universe where there’s a magnetic field, which is just about everywhere.” ...

Measurements of planetary and interplanetary magnetic fields have been integral to space missions from their early days 75. The on-board instruments designed for such missions have been able to ...

Scientists have captured faint magnetic signatures resulting from the tidal movement of seawater across the planet — and they might have to wait until 2030 to get another shot at it.

For years, NASA has been studying a growing anomaly in Earth’s magnetic field that scientists liken to a “dent” or “pothole in space.” It is a giant region of lower magnetic intensity ...