???? Why is the Sun’s atmosphere much (much) hotter than its surface?

2023-11-29 05:00:05

The temperature on the surface of the sun is around 6,000°C, while its atmosphere reaches a million degrees! We would tend to imagine, as on Earth, that we lose heat as we rise into the atmosphere. How to explain this paradox (A paradox is a proposition which contains or seems to contain a logical contradiction, or a…)?

Many scientists are studying this question. If the answer is not yet clear, several hypotheses exist on the origin of the energy which heats the atmosphere (The word atmosphere can have several meanings:) of the Sun, and this might have to do with the magnetic field (In physics, the magnetic field (or magnetic induction, or flux density…) due to our star (A star is a celestial object emitting light autonomously, similar to a…).

Representation of the Sun’s magnetic field.
Shutterstock

The temperature of the Sun

Heat (In common language, the words heat and temperature often have an equivalent meaning:…) is created at the very center of the Sun, at its heart, where the temperature reaches 15 million degrees Celsius. And like moving away from a campfire, the temperature decreases as you move away from the core.

The surface temperature of the Sun is around 6,000°C, which means it is much colder than the core. Additionally, cooling continues for a short distance above the surface.

But higher up in the atmosphere, the temperature suddenly rises to more than a million degrees! So there must be something heating the Sun’s atmosphere. But it’s difficult to know what it is.

The Sun’s magnetic field

The most popular hypothesis among experts is that our star’s magnetic field draws energy from the Sun’s interior up through its surface and into its atmosphere.

Like the Earth, the Sun has a magnetic field. Let’s imagine the magnetic field as invisible lines connecting the north and south poles of a star or planet.

We can’t see magnetic fields, but we know they exist because we have objects that react to them. For example, a compass needle on Earth will always point toward the North Pole because it aligns with the Earth’s magnetic field (The Earth’s geographic North Pole, or simply the North Pole, is the furthest point… Earth has a magnetic field produced by the movements of its outer core –…).

Here you can see how Earth’s magnetic field extends out into space and loops back. The red end is the north magnetic pole and the white end is the south pole (The South Pole is the southernmost point on the Earth’s surface, diametrically…).
Shutterstock

The Sun has a North Pole and a South Pole, but its magnetic field behaves differently from that of the Earth and appears much messier. On the surface of the Sun, the magnetic field lines look like many loops that rise from the surface into the atmosphere, and these loops are constantly changing. If the loops touch, they can cause sudden bursts of enormous amounts of energy that heat the atmosphere. We also know that waves travel along magnetic field lines and carry energy. Could they be responsible for warming the atmosphere?

Is it a combination of waves and explosions, or something else entirely? Being able to measure the Sun’s magnetic field would really help us understand what’s going on.

This is what the Sun’s magnetic field lines might look like if we might see them rising from its surface.
NASA

Measure the magnetic field

Magnetic fields are invisible, but we can measure them, because they slightly modify the light coming from the Sun. Its surface is very shiny, so it’s easy to see changes in its light coming from it and measure the magnetic field there.

But the Sun’s atmosphere is so hot that light is no longer visible. Instead, it produces X-rays, a type of light that we cannot see. Even if we use special X-ray telescopes, the X-rays coming from the Sun’s atmosphere are too weak for us to determine what the magnetic field in the atmosphere looks like.

The good news is that a probe, Parker Solar Probe from NASA, is currently in orbit close to the Sun (but not too close) and crosses the magnetic field to measure it . We should receive a lot of exciting information over the coming years.

These measurements of the magnetic field will allow us to better understand what makes the atmosphere of the Sun and other stars much hotter than their surfaces.

NASA’s Solar Parker Probe is regarding the size of a car.
NASA
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#Suns #atmosphere #hotter #surface

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