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Sun's Magnetic Field May Originate Closer To Solar Surface: Study

A strong solar storm that reached Earth this month caused bright auroras in the skies. (Representational)

Washington:

The sun’s magnetic field, which causes solar storms like the one that hit Earth this month and produced beautiful auroras, may originate at shallower depths in the star’s interior than previously thought, according to researchers.

The sun’s outer 30% is comprised of an “ocean” of churning gases plunging more than 130,000 miles (210,000 km) below the solar surface. The research, comparing new theoretical models to observations by the sun-observing SOHO spacecraft, provides strong evidence that its magnetic field is generated near the top of this ocean – less than 5% inward, or about 20,000 miles (32,000 km) – rather than near the bottom, as long hypothesized.

In addition to providing insight into the sun’s dynamic processes, the findings may improve the ability to forecast solar storms and guard against potential damage to electricity grids, radio communications and orbiting satellites, the researchers said.

Most stars have magnetic fields, apparently generated by the motion of super-hot gases inside them. The sun’s ever-changing magnetic field drives the formation of sunspots – shifting dark patches – on its surface and triggers solar flares that blast hot charged particles into space.

“The top 5% to 10% of the sun is a region where the winds are perfect for making abundant magnetic fields through a fascinating astrophysical process,” said Geoffrey Vasil, an applied and computational mathematician at the University of Edinburgh in Scotland and lead author of the study published on Wednesday in the journal Nature.

This process involves rotational flow patterns of super-hot ionized – electrically charged – gases called plasma inside the sun.

The precise mechanisms behind how the sun generates its magnetic field – the solar dynamo, as the scientists call it – has remained an unsolved problem in theoretical physics. These researchers hypothesize that these flow patterns are the key.

“If the plasma which constitutes the sun was completely stationary, we know the sun’s magnetic field would decay in time, and before long, there would be no sunspots or other solar activity. However, the plasma in the sun is moving around, and that motion is able to regenerate and maintain the sun’s magnetic field,” said theoretical physicist and study co-author Daniel Lecoanet of Northwestern University in Illinois.

The solar magnetic field ebbs and flows in a distinct pattern, with sunspots – regions with very large magnetic fields – emerging and then vanishing every 11 years, making the sun, as Vasil called it, “a giant magnetic clock.”

“But we have yet to find the full story about how it happens. Complex interacting fluid motions (in this case, the solar plasma) ultimately drive a dynamo, but we can’t yet explain the details,” Vasil added.

Italian polymath Galileo carried out in 1612 the first detailed observations of sunspots using telescopes he invented. American astronomer George Hale in the early 20th century determined that sunspots were magnetic.

“And we’re still scratching our heads about these pesky sunspots,” Vasil said.

A strong solar storm that reached Earth this month caused bright auroras in the skies, though Earth’s technological infrastructure remained unscathed.

“Occasionally, a group of sunspots explodes and launches a billion tons of hot charged particles toward Earth, like what happened last week,” Vasil said.

But a powerful solar storm like one that occurred in 1859 called the Carrington Event could cause trillions of dollars in damage and leave hundreds of millions of people without power, the researchers said.

“You can think of magnetic fields as being like rubber bands. The motions near the surface of the sun can stretch out the rubber bands until they break. The breaking magnetic field can then launch material outward into space in what is called a solar storm. If we’re unlucky, these storms can be launched toward the Earth and can cause significant damage to our satellites and power grid,” Lecoanet added.

(Except for the headline, this story has not been edited by NDTV staff and is published from a syndicated feed.)