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---------------------------------------------------------------------

SMART NEWS

Check Out the Highest-Resolution Images Ever Captured of the Sun's
Entire Surface

Four new images show our nearest star in dazzling detail, with each
one made up of 25 shots observed by the Solar Orbiter in 2023

Margherita Bassi

Margherita Bassi

Daily Correspondent

November 21, 2024
---------------------------------------------------------------------
a portion of the sun in high resolution depicting a large sunspot
This view is just part of a new, high-resolution image of the sun's
full surface captured by the Polarimetric and Helioseismic Imager
(PHI) on the Solar Orbiter spacecraft. Screenshot. ESA & NASA / Solar
Orbiter / PHI & EUI teams; Data processing: J. Hirzberger (MPS) & E.
Kraaikamp (ROB)

The European Space Agency (ESA) has just released four new, stellar
images of the sun, including the highest resolution views to date of
its full, visible surface, called the photosphere.

Each image is actually a mosaic of 25 high-resolution shots snapped
by the Solar Orbiter mission on March 22, 2023. The spacecraft
captured all 100 total images when it was less than 46 million miles
from the sun. The process took more than four hours, since the
spacecraft had to change position for each individual photograph. In
the final mosaics, the sun's diameter is almost 8,000 pixels across.

"The closer we look, the more we see," Mark Miesch, an astrophysicist
at the National Oceanic and Atmospheric Administration's Space
Weather Prediction Center who wasn't involved with obtaining the
images, tells CNN's Ashley Strickland. "To understand the elaborate
interplay between large and small; between twisted magnetic fields
and churning flows, we need to behold the sun in all its splendor.
These high-resolution images from Solar Orbiter bring us closer to
that aspiration than ever before."

     @ESASolarOrbiter's daring trajectory close to the Sun is paying
      off, giving us the highest-resolution full views of the Sun's
                            surface to date.
      Full story https://t.co/Cy0H6JZmlp pic.twitter.com/0IyEDeLpX0

              -- ESA Science (@esascience) November 20, 2024

The Solar Orbiter is a joint mission between the ESA and NASA,
operated by the ESA, that launched in February 2020 and released its
first images the following July. Since its launch, the program has
hit many milestones, capturing both the closest-ever images of the
sun and the first close-up images of its polar regions.

While the spacecraft totes six imaging instruments, the newly
released images were captured with just two: the Polarimetric and
Helioseismic Imager (PHI) and the Extreme Ultraviolet Imager (EUI).
The PHI is responsible for three of the new solar views--an image in
visible light, a map of the direction of the magnetic field and a
velocity map featuring the speed and direction of parts of the sun's
surface. The EUI, meanwhile, produced an image of our star's outer
atmosphere, called the corona, in ultraviolet light.

"These new high-resolution maps from Solar Orbiter's PHI instrument
show the beauty of the sun's surface magnetic field and flows in
great detail. At the same time, they are crucial for inferring the
magnetic field in the sun's hot corona, which our EUI instrument is
imaging," Daniel Muller, a Solar Orbiter project scientist with the
ESA, says in a statement. "The sun's magnetic field is key to
understanding the dynamic nature of our home star from the smallest
to the largest scales."

The four images offer a high-definition tour of the sun. First, the
visible light image below depicts the star's constantly moving
surface of hot plasma--or charged gas, simply put. This layer has a
temperature between 8,132 and 10,832 degrees Fahrenheit and emits
most of the sun's radiation.

The Sun in visible light The sun in visible light ESA & NASA / Solar
Orbiter / PHI Team CC BY-SA 3.0 IGO

Beneath the surface is the sun's convection zone, in which dense
plasma swirls around, rather like the magma in Earth's mantle. This
phenomenon makes the sun's surface look grainy, and scientists say
the star's magnetic field is driven by the churning plasma.

Dark shapes called sunspots are seen in both PHI's visible light
image and its magnetic map, shown below. The sun's magnetic field is
stronger at the sunspots, with red in the image indicating where it
moves outward and blue indicating where it moves inward.

Sunspots are concentrated tangles of magnetic fields, where plasma is
diverted from the sun's heat-mixing convective flow, making it cooler
than surrounding areas. As a result, the plasma in sunspots gives off
less light and appears dark in the visible light image.

line-of-sight direction of the magnetic field on the Sun's disc This
map, showing the line-of-sight direction of the sun's magnetic field,
is also called a magnetogram. ESA & NASA / Solar Orbiter / PHI Team
CC BY-SA 3.0 IGO

In the third image--the velocity map, shown below--the PHI captures the
movement of parts of the sun's surface, with blue indicating movement
toward the Solar Orbiter and red indicating movement away from it.

"This map shows that while the plasma on the surface of the sun
generally rotates with the sun's overall spin around its axis, it is
pushed outward around the sunspots," according to the statement.

The velocity map The velocity map, also called a tachogram ESA & NASA
/ Solar Orbiter / PHI Team CC BY-SA 3.0 IGO

Lastly, the EUI's ultraviolet light image captures the sun's corona
--its wispy outer atmosphere that can only be seen from Earth during a
total solar eclipse. The image depicts interesting activity once
again around the sunspots: plasma shooting outward along magnetic
field lines, which occasionally connect sunspots close to each other.

high-resolution image shows the Sun in ultraviolet light This
high-resolution image shows the sun in ultraviolet light, revealing
its outer atmosphere, the corona. ESA & NASA / Solar Orbiter / EUI
Team CC BY-SA 3.0 IGO

The image processing that produced the PHI's images was "new and
difficult," per the statement, but moving forward, ESA experts expect
to produce similar images with greater speed, potentially releasing
two a year.

"This mission is such a treasure and important to science," Gunther
Hasinger, director of science for the ESA, told Space.com's Amy
Thompson at the time of its launch.

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Margherita Bassi

Margherita Bassi | READ MORE

Margherita Bassi is a freelance journalist and trilingual
storyteller. Her work has appeared in publications including BBC
Travel, Discover magazine, Live Science, Atlas Obscura and Hidden
Compass.

Filed Under: NASA, Outer Space, Photography, Solar System, Sun
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