Parker Solar Probe: 1st spacecraft to touch sun


Parker Solar Probe is the 1st spacecraft to touch the sun

For the first time, a spacecraft has literally touched the sun. Scientists made the announcement this week (December 14, 2021) at the American Geophysical Union meeting in New Orleans. They said the Parker Solar Probe flew through the sun’s upper atmosphere, its wispy corona, on April 28, 2021. The corona is that fiery-looking outer layer of the sun that appears around the moon’s silhouette during total solar eclipses. Parker Solar Probe has been sampling the corona’s particles and magnetic fields. It’s been making discoveries more distant spacecraft can’t make. For example, the solar wind is a stream of charged particles released from the sun’s corona. Parker Solar Probe found zigzag structures in the solar wind that scientists are calling switchbacks. Cool!

On the same day, the peer-reviewed Physical Review Letters published the results of Parker Solar Probe’s first venture into the sun’s upper atmosphere. The Astrophysical Journal has also accepted the results for publication.

Thomas Zurbuchen, the associate administrator for the Science Mission Directorate at NASA Headquarters in Washington, said:

Touching the sun is a monumental moment for solar science and a truly remarkable feat. Not only does this milestone provide us with deeper insights into our sun’s evolution and its impacts on our solar system, but everything we learn about our own star also teaches us more about stars in the rest of the universe.

In addition, Nour Raouafi of Johns Hopkins Applied Physics Laboratory said:

Flying so close to the sun, Parker Solar Probe now senses conditions in the magnetically dominated layer of the solar atmosphere – the corona – that we never could before. We see evidence of being in the corona in magnetic field data, solar wind data, and visually in images. We can actually see the spacecraft flying through coronal structures that can be observed during a total solar eclipse.

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Black background with white streaks running left to right.
What does touching the sun look like? For one thing, as Parker Solar Probe passed through our sun’s corona, or wispy outer atmosphere, it flew by structures called coronal streamers. These structures are the bright features moving upward in the upper images above, and angled downward in the lower row. They are the streamers visible around the dark moon silhouette during total solar eclipses. And now our robot emissary – Parker Solar Probe – has touched these streamers, and measured them, for the first time. Image via NASA/ Johns Hopkins APL/ Naval Research Laboratory.

Reaching the Alfvén critical surface

NASA launched Parker toward the sun in 2018. As Parker circled closer and closer during several flybys, scientists looked for indications that it had reached the Alfvén critical surface. The Alfvén critical surface is the point that marks the end of the solar atmosphere and the beginning of the solar wind. While the sun doesn’t have a solid surface, it does have a boundary. The boundary is the point at which solar material bound to the sun by gravity and magnetic forces ends.

Solar material energetic enough to cross the Alfvén critical surface becomes the solar wind, dragging magnetic field lines with it. Once the material crosses this boundary, the wind is moving too fast to ever travel back to the sun, severing the connection.

Scientists estimated the Alfvén critical surface was somewhere between 10 to 20 solar radii from the surface of the sun. This is equal to 4.3 to 8.6 million miles (7 to 13.8 million km) from the sun. When Parker finally spiraled close enough to the sun to detect that it had crossed the Alfvén critical surface, it was 18.8 solar radii (around 8 million miles or 13 million km) above the solar surface. For the first time, on April 28, 2021, Parker entered the solar atmosphere.

Justin Kasper of BWX Technologies Inc. and the University of Michigan, said:

We were fully expecting that, sooner or later, we would encounter the corona for at least a short duration of time. But it is very exciting that we’ve already reached it.

Part of sun with glowing layers around it and Parker Solar Probe on the edge.
Artist’s concept shows NASA’s Parker Solar Probe. It is the 1st spacecraft to touch the sun. Image via NASA.

The peculiarities of the sun’s border

Parker Solar Probe discovered that this boundary – the Alfvén critical surface – isn’t smooth and round. The edge has wrinkles. The spacecraft passed through spikes and valleys as it dove in and out of the boundary. Parker got as close as just under 15 solar radii (around 7 million miles or 11 million km) from the sun’s surface. In this region it passed through a pseudostreamer, a feature in the corona. Pseudostreamers are towering structures that rise above the sun’s surface that we can see during solar eclipses.

Being inside the pseudostreamer was like being inside the eye of a hurricane. The conditions were quieter and slower, easing the barrage of particles on the spacecraft. In this region, magnetic fields were the dominate force over particles, providing proof that Parker was inside the Alfvén critical surface.

Parker only spent a few hours in the sun’s corona. But the spacecraft will continue to spiral closer, aiming for a distance of 8.86 solar radii (3.83 million miles or 6.1 million km) from the surface. Its next flyby, in January 2022, should dip Parker into the corona again. Nicola Fox of NASA said:

I’m excited to see what Parker finds as it repeatedly passes through the corona in the years to come. The opportunity for new discoveries is boundless.

1st spacecraft to touch the sun: Graphic showing distances Parker Solar Probe is from sun.
View larger. | This graphic represents Parker Solar Probe’s distances from the sun during its milestones and discoveries. Image via NASA Goddard Space Flight Center/ Mary P. Hrybyk-Keith.

Solar maximum and switchbacks

The sun’s corona expands in size during periods of higher solar activity. The sun is currently in solar cycle 25, which should reach a peak in activity (solar maximum) around 2025. This expansion will allow Parker to spend more time inside the corona. Kasper said:

It is a really important region to get into because we think all sorts of physics potentially turn on. And now we’re getting into that region and hopefully going to start seeing some of these physics and behaviors.

One behavior of the sun that Parker is already investigating is that of strange kinks in the solar wind’s magnetic field lines. Scientists first spotted these switchbacks in the mid-1990s and thought they were limited to the sun’s polar regions. Parker encountered the zigzags in the solar wind in 2019, finding that they are common, not rare. And now that Parker is twice as close to the sun as it was in 2019, it can see where these kinky structures originate: the solar surface. Its findings confirm that the switchbacks come from the photosphere, or the visible surface of the sun.

Parker discovered that the switchbacks occur in patches and have a higher percentage of helium – a sign that they came from the photosphere – than other elements. Parker also found that the patches of switchbacks aligned with magnetic funnels that emerge from the photosphere between convection cell structures called supergranules.

Now, scientists think these magnetic funnels may also be the source of the fast solar wind. Stuart Bale of the University of California, Berkeley, said:

The structure of the regions with switchbacks matches up with a small magnetic funnel structure at the base of the corona. This is what we expect from some theories, and this pinpoints a source for the solar wind itself.

Parker Solar Probe: More mysteries

As astronomers learn more about the solar wind and switchbacks, they hope it will help them unlock a long-standing mystery in astronomy: Why the corona is so much hotter than the surface of the sun. Bale said:

My instinct is, as we go deeper into the mission and lower and closer to the sun, we’re going to learn more about how magnetic funnels are connected to the switchbacks and hopefully resolve the question of what process makes them.

Scientists hope to learn more about the superheated corona and what pushes the solar wind to supersonic speeds. This will also help them understand and forecast space weather events that impact Earth’s environment and sometimes human technology.

Joseph Smith, Parker program executive at NASA Headquarters, said:

It’s really exciting to see our advanced technologies succeed in taking Parker Solar Probe closer to the sun than we’ve ever been, and to be able to return such amazing science. We look forward to seeing what else the mission discovers as it ventures even closer in the coming years.

Bottom line: The Parker Solar Probe is the first spacecraft to touch the sun. It did so in April 2021 when it entered the sun’s corona and sampled the atmosphere there.

Source: Parker Solar Probe Enters the Magnetically Dominated Solar Corona

Via NASA

The post Parker Solar Probe: 1st spacecraft to touch sun first appeared on EarthSky.



from EarthSky https://ift.tt/3GPjfVW

Parker Solar Probe is the 1st spacecraft to touch the sun

For the first time, a spacecraft has literally touched the sun. Scientists made the announcement this week (December 14, 2021) at the American Geophysical Union meeting in New Orleans. They said the Parker Solar Probe flew through the sun’s upper atmosphere, its wispy corona, on April 28, 2021. The corona is that fiery-looking outer layer of the sun that appears around the moon’s silhouette during total solar eclipses. Parker Solar Probe has been sampling the corona’s particles and magnetic fields. It’s been making discoveries more distant spacecraft can’t make. For example, the solar wind is a stream of charged particles released from the sun’s corona. Parker Solar Probe found zigzag structures in the solar wind that scientists are calling switchbacks. Cool!

On the same day, the peer-reviewed Physical Review Letters published the results of Parker Solar Probe’s first venture into the sun’s upper atmosphere. The Astrophysical Journal has also accepted the results for publication.

Thomas Zurbuchen, the associate administrator for the Science Mission Directorate at NASA Headquarters in Washington, said:

Touching the sun is a monumental moment for solar science and a truly remarkable feat. Not only does this milestone provide us with deeper insights into our sun’s evolution and its impacts on our solar system, but everything we learn about our own star also teaches us more about stars in the rest of the universe.

In addition, Nour Raouafi of Johns Hopkins Applied Physics Laboratory said:

Flying so close to the sun, Parker Solar Probe now senses conditions in the magnetically dominated layer of the solar atmosphere – the corona – that we never could before. We see evidence of being in the corona in magnetic field data, solar wind data, and visually in images. We can actually see the spacecraft flying through coronal structures that can be observed during a total solar eclipse.

EarthSky 2022 lunar calendars now available! They make great gifts. Order now. Going fast!

Black background with white streaks running left to right.
What does touching the sun look like? For one thing, as Parker Solar Probe passed through our sun’s corona, or wispy outer atmosphere, it flew by structures called coronal streamers. These structures are the bright features moving upward in the upper images above, and angled downward in the lower row. They are the streamers visible around the dark moon silhouette during total solar eclipses. And now our robot emissary – Parker Solar Probe – has touched these streamers, and measured them, for the first time. Image via NASA/ Johns Hopkins APL/ Naval Research Laboratory.

Reaching the Alfvén critical surface

NASA launched Parker toward the sun in 2018. As Parker circled closer and closer during several flybys, scientists looked for indications that it had reached the Alfvén critical surface. The Alfvén critical surface is the point that marks the end of the solar atmosphere and the beginning of the solar wind. While the sun doesn’t have a solid surface, it does have a boundary. The boundary is the point at which solar material bound to the sun by gravity and magnetic forces ends.

Solar material energetic enough to cross the Alfvén critical surface becomes the solar wind, dragging magnetic field lines with it. Once the material crosses this boundary, the wind is moving too fast to ever travel back to the sun, severing the connection.

Scientists estimated the Alfvén critical surface was somewhere between 10 to 20 solar radii from the surface of the sun. This is equal to 4.3 to 8.6 million miles (7 to 13.8 million km) from the sun. When Parker finally spiraled close enough to the sun to detect that it had crossed the Alfvén critical surface, it was 18.8 solar radii (around 8 million miles or 13 million km) above the solar surface. For the first time, on April 28, 2021, Parker entered the solar atmosphere.

Justin Kasper of BWX Technologies Inc. and the University of Michigan, said:

We were fully expecting that, sooner or later, we would encounter the corona for at least a short duration of time. But it is very exciting that we’ve already reached it.

Part of sun with glowing layers around it and Parker Solar Probe on the edge.
Artist’s concept shows NASA’s Parker Solar Probe. It is the 1st spacecraft to touch the sun. Image via NASA.

The peculiarities of the sun’s border

Parker Solar Probe discovered that this boundary – the Alfvén critical surface – isn’t smooth and round. The edge has wrinkles. The spacecraft passed through spikes and valleys as it dove in and out of the boundary. Parker got as close as just under 15 solar radii (around 7 million miles or 11 million km) from the sun’s surface. In this region it passed through a pseudostreamer, a feature in the corona. Pseudostreamers are towering structures that rise above the sun’s surface that we can see during solar eclipses.

Being inside the pseudostreamer was like being inside the eye of a hurricane. The conditions were quieter and slower, easing the barrage of particles on the spacecraft. In this region, magnetic fields were the dominate force over particles, providing proof that Parker was inside the Alfvén critical surface.

Parker only spent a few hours in the sun’s corona. But the spacecraft will continue to spiral closer, aiming for a distance of 8.86 solar radii (3.83 million miles or 6.1 million km) from the surface. Its next flyby, in January 2022, should dip Parker into the corona again. Nicola Fox of NASA said:

I’m excited to see what Parker finds as it repeatedly passes through the corona in the years to come. The opportunity for new discoveries is boundless.

1st spacecraft to touch the sun: Graphic showing distances Parker Solar Probe is from sun.
View larger. | This graphic represents Parker Solar Probe’s distances from the sun during its milestones and discoveries. Image via NASA Goddard Space Flight Center/ Mary P. Hrybyk-Keith.

Solar maximum and switchbacks

The sun’s corona expands in size during periods of higher solar activity. The sun is currently in solar cycle 25, which should reach a peak in activity (solar maximum) around 2025. This expansion will allow Parker to spend more time inside the corona. Kasper said:

It is a really important region to get into because we think all sorts of physics potentially turn on. And now we’re getting into that region and hopefully going to start seeing some of these physics and behaviors.

One behavior of the sun that Parker is already investigating is that of strange kinks in the solar wind’s magnetic field lines. Scientists first spotted these switchbacks in the mid-1990s and thought they were limited to the sun’s polar regions. Parker encountered the zigzags in the solar wind in 2019, finding that they are common, not rare. And now that Parker is twice as close to the sun as it was in 2019, it can see where these kinky structures originate: the solar surface. Its findings confirm that the switchbacks come from the photosphere, or the visible surface of the sun.

Parker discovered that the switchbacks occur in patches and have a higher percentage of helium – a sign that they came from the photosphere – than other elements. Parker also found that the patches of switchbacks aligned with magnetic funnels that emerge from the photosphere between convection cell structures called supergranules.

Now, scientists think these magnetic funnels may also be the source of the fast solar wind. Stuart Bale of the University of California, Berkeley, said:

The structure of the regions with switchbacks matches up with a small magnetic funnel structure at the base of the corona. This is what we expect from some theories, and this pinpoints a source for the solar wind itself.

Parker Solar Probe: More mysteries

As astronomers learn more about the solar wind and switchbacks, they hope it will help them unlock a long-standing mystery in astronomy: Why the corona is so much hotter than the surface of the sun. Bale said:

My instinct is, as we go deeper into the mission and lower and closer to the sun, we’re going to learn more about how magnetic funnels are connected to the switchbacks and hopefully resolve the question of what process makes them.

Scientists hope to learn more about the superheated corona and what pushes the solar wind to supersonic speeds. This will also help them understand and forecast space weather events that impact Earth’s environment and sometimes human technology.

Joseph Smith, Parker program executive at NASA Headquarters, said:

It’s really exciting to see our advanced technologies succeed in taking Parker Solar Probe closer to the sun than we’ve ever been, and to be able to return such amazing science. We look forward to seeing what else the mission discovers as it ventures even closer in the coming years.

Bottom line: The Parker Solar Probe is the first spacecraft to touch the sun. It did so in April 2021 when it entered the sun’s corona and sampled the atmosphere there.

Source: Parker Solar Probe Enters the Magnetically Dominated Solar Corona

Via NASA

The post Parker Solar Probe: 1st spacecraft to touch sun first appeared on EarthSky.



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