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5 previously unknown secrets of the Sun shed new light on our star

​One of the only places in the solar system without dust

5 previously unknown secrets of the Sun shed new light on our star

​The Sun’s has way more outbursts than expected, threatening astronauts in space

​The Sun’s has way more outbursts than expected, threatening astronauts in space

Parker's ISOIS energetic particle instruments have measured several never-before-seen events so small that all trace of them is lost before they reach Earth (Source: NASA)

Scientists have observed the Sun’s burst of solar energetic particles in the past, but these outbursts are generally large and irregular. These fast-moving particles are a source of radiation, posing a danger to astronauts and spacecraft as they travel through space or explore the Moon — which lacks any atmospheric protection.

And, these might be more common than previously thought. Parker finds that smaller outbursts of solar energetic particles are happening on a regular basis. Because they’re so small, the particles are undetectable from Earth as they spread out into space.

​Magnetic fields that do a complete 180

​Magnetic fields that do a complete 180

Flips in the Sun's magnetic fields — dubbed "switchbacks" — appear to be a very common phenomenon as they flow over NASA's Parker Solar Probe during its first year in orbit (Source: NASA)

Until now, as observed from Earth, the Sun’s magnetic field look like they flow out evenly off its surface. That might no longer be the case.

Parker’s observations show that the magnetic field lines flip in a whip-like motion. Within a matter of seconds, they are able to turn a complete 180 degrees. These movements come in clusters along with fast-moving clumps of plasma in the solar wind.

​It’s not all smooth

​It’s not all smooth

NASA's Parker Solar Probe observed a slow solar wind flowing out from the small coronal hole — the long, thin black spot seen on the left side of the Sun in this image captured by NASA's Solar Dynamics Observatory (Source: NASA)

It’s been a conundrum to scientists where the solar wind flows in a smooth continuous slow or whether its generate in erratic spurts. And, the answer is neither.

Parker finds that solar winds have rough, irregular texture. The plasma within them doesn’t have a sense of direction either. Half the time it flies randomly out into space and the rest it falls back towards the Sun. In fact, these clumps of plasma might be the reason behind the ‘whip’ in the Sun’s magnetic field.

Even so, the new information shows scientists what solar wind looks like in its nascent stages for the very first time.

The point where solar winds straighten out before reaching Earth

The point where solar winds straighten out before reaching Earth

Parker located a transition region in the solar wind's flow (Source: NASA)

The Sun’s corona — it’s faint, outer-most layer — rotates along with the surface below. But by the time solar winds reach Earth, they aren’t rotating but flowing in a straight pattern. And, Parker point the point where the switch happens.

This ‘transition point’ happens significantly farther out than scientists expected.

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