In August 2018, our Parker Solar Probe mission launched to space, soon becoming the closest-ever spacecraft from the Sun. Now, scientists have announced their first discoveries from this exploration of our star!
The Sun may look calm to us here on Earth, but it’s an active star, unleashing powerful bursts of light, deluges of particles moving near the speed of light and billion-ton clouds of magnetized material. All of this activity can affect our technology here on Earth and in space.
Parker Solar Probe’s main science goals are to understand the physics that drive this activity — and its up-close look has given us a brand-new perspective. Here are a few highlights from what we’ve learned so far.
1. Surprising events in the solar wind
The Sun releases a continual outflow of magnetized material called the solar wind, which shapes space weather near Earth. Observed near Earth, the solar wind is a relatively uniform flow of plasma, with occasional turbulent tumbles. Closer to the solar wind’s source, Parker Solar Probe saw a much different picture: a complicated, active system.
One type of event in particular drew the eye of the science teams: flips in the direction of the magnetic field, which flows out from the Sun, embedded in the solar wind. These reversals — dubbed “switchbacks” — last anywhere from a few seconds to several minutes as they flow over Parker Solar Probe. During a switchback, the magnetic field whips back on itself until it is pointed almost directly back at the Sun.
The exact source of the switchbacks isn’t yet understood, but Parker Solar Probe’s measurements have allowed scientists to narrow down the possibilities — and observations from the mission’s 21 remaining solar flybys should help scientists better understand these events.
2. Seeing tiny particle events
The Sun can accelerate tiny electrons and ions into storms of energetic particles that rocket through the solar system at nearly the speed of light. These particles carry a lot of energy, so they can damage spacecraft electronics and even endanger astronauts, especially those in deep space, outside the protection of Earth’s magnetic field — and the short warning time for such particles makes them difficult to avoid.
Energetic particles from the Sun impact a detector on ESA & NASA’s SOHO satellite.
Parker Solar Probe’s energetic particle instruments have measured several never-before-seen events so small that all trace of them is lost before they reach Earth. These instruments have also measured a rare type of particle burst with a particularly high number of heavier elements — suggesting that both types of events may be more common than scientists previously thought.
3. Rotation of the solar wind
Near Earth, we see the solar wind flowing almost straight out from the Sun in all directions. But the Sun rotates as it releases the solar wind, and before it breaks free, the wind spins along in sync with the Sun’s surface. For the first time, Parker was able to observe the solar wind while it was still rotating – starting more than 20 million miles from the Sun.
The strength of the circulation was stronger than many scientists had predicted, but it also transitioned more quickly than predicted to an outward flow, which helps mask the effects of that fast rotation from the vantage point where we usually see them from, near Earth, about 93 million miles away. Understanding this transition point in the solar wind is key to helping us understand how the Sun sheds energy, with implications for the lifecycles of stars and the formation of protoplanetary disks.
4. Hints of a dust-free zone
Parker also saw the first direct evidence of dust starting to thin out near the Sun – an effect that has been theorized for nearly a century, but has been impossible to measure until now. Space is awash in dust, the cosmic crumbs of collisions that formed planets, asteroids, comets and other celestial bodies billions of years ago. Scientists have long suspected that, close to the Sun, this dust would be heated to high temperatures by powerful sunlight, turning it into a gas and creating a dust-free region around the Sun.
For the first time, Parker’s imagers saw the cosmic dust begin to thin out a little over 7 million miles from the Sun. This decrease in dust continues steadily to the current limits of Parker Solar Probe’s instruments, measurements at a little over 4 million miles from the Sun. At that rate of thinning, scientists expect to see a truly dust-free zone starting a little more than 2-3 million miles from the Sun — meaning the spacecraft could observe the dust-free zone as early as 2020, when its sixth flyby of the Sun will carry it closer to our star than ever before.
These are just a few of Parker Solar Probe’s first discoveries, and there’s plenty more science to come throughout the mission! For the latest on our Sun, follow @NASASun on Twitter and NASA Sun Science on Facebook.
Like the earlier mob leaders, the spokesmen for totalitarian movements possessed an unerring instinct for anything that ordinary party propaganda or public opinion did not care to touch. Everything hidden, everything passed over in silence, became of major significance, regardless of its own intrinsic importance. The mob really believed that truth was whatever respectable society had hypocritically passed over, or covered with corruption.
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Hannah Arendt, The Origins of Totalitarianism (via philosophybits)
Up now on my eBay! Classic translated manga from 1995! F-III Bandit #5 by Bang Ippongi and Antarctic Press! Also up for grabs: my superheroine comic collection (70’s-80’s stuff), random Radio Comix books and various indie comics! My house is super small, and I am still selling off thirty years’ worth of collectibles to raise money for ongoing back taxes & various upcoming large expenses, so every little bit helps. Thanks for looking & sharing!
In 1952 the Cuyahoga River was so badly choked with oil and other pollutants that the water literally caught on fire. It happened again in 1969. The image of a flaming river so horrified people that it is often credited with inspiring the Clean Water Act.
When cleanup efforts began, 100% of the soil dredged from the river was highly polluted. Nearly the only thing that could be found living in the water was invasive carp.
Yet only fifty years later, the same river now hosts a variety of fish, birds, bugs, and other wildlife. People use the river for picnics and whitewater kayaking, and it has just this year been declared clean enough to eat fish from again.
Along with cleaning pollutants from the river and surrounding earth, environmentalists also removed six dams to increase oxygenation and revive fish populations. Work on healing the river continues, but the Cuyahoga has come a long way from the dead, burning waterway it was only fifty years ago.
We often hear that nature can be fragile, but we must remember that nature can also be shockingly resilient. When we clean and restore polluted areas, nature will eagerly return to recolonize them. All we have to do is get out of the way.
This blog is mostly so I can vent my feelings and share my interests. Other than that, I am nothing special.
If you don't like Left Wing political thought and philosophy, all things related to horror, the supernatural, the grotesque, guns or the strange, then get the fuck out. I just warned you.
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