Strongest solar storms in 20 years creates new radiation belts around Earth

During unusually strong solar storms, a temporary third belt can form between the two permanent Van Allen Belts. May's solar storms were the strongest in 20 years producing Northern Lights as far south as Florida.

This year's historic solar storms, which created beautiful displays of Northern Lights around the globe, also made more lasting changes to Earth's magnetic field in the form of additional radiation belts, according to new data from a tiny NASA satellite. 

May's space weather event, created by powerful blasts of energized particles from the Sun, was the strongest in 20 years. Coronal mass ejections (CME) associated with solar flares sent charged particles toward Earth, causing extreme geomagnetic storm conditions and vivid Aurora Borealis seen as far south as Florida

NASA's Colorado Inner Radiation Belt Experiment (CIRBE) CubeSat recently found evidence of two new radiation belts within the Van Allen Belts. There are two permanent main belts: one made up of the trapped high-energy radiation particles from the Sun and the second from interactions of cosmic rays with Earth. According to NASA, during unusually strong solar storms, a temporary third belt can form between the two permanent ones. 

Scientists say these new belts formed after May’s geomagnetic storms could last months or even years. The CIRBE team continues to study the data to understand the latest addition better and how long it might last. 

LARGEST X-CLASS SOLAR FLARE OF PAST SEVERAL YEARS EXPLODES FROM SUN

Between May 10 and May 15, several active sunspot regions released multiple X-class solar flares. An X flare is the most intense, and the number represents its strength. While the Sun frequently produces these bursts of energy, flares of this magnitude are rare.

On May 14, NASA satellites witnessed an X8.7 flare blasting out of the active sunspot region, the largest solar flare of the 11-year solar cycle. 

More space weather ahead

The Sun is approaching solar maximum, culminating in more sunspots, the regions responsible for the powerful Northern lights we saw earlier this year. 

WHAT IS THE 11-YEAR SOLAR CYCLE

This week, NOAA’s Space Weather Prediction Center issued Geomagnetic Storm Watches due to CMEs with Earth-directed components capable of producing strong solar storm impacts, including the Northern Lights farther away from the North Pole.

Space weather forecasters continue to monitor 12 different sunspot regions with a history of producing solar flares. Current forecasts show the potential for strong solar flares this weekend.

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