Q said: During a sunspot flare near the south pole of the Sun, a huge plasma plume erupted into the universe, a striking sign of the edge of the solar maximum. The eruption, which did not point to Earth or other planets in the solar system, originated from the magnetic ring of the polar coronal filament. Solar activity has negative effects on the space environment, such as ionospheric movements, magnetic storms, and increased plasma populations. The peak of solar activity is likely to come earlier in the coming months. An incredible and majestic plume of plasma erupts violently from the sun's south pole into the vastness of the universe, where eruptions rarely occur. According to Living Science, the shocking event recorded in the event is a striking sign that the Sun is on the verge of its most active phase, the solar maximum.
This rare natural spectacle occurred during a flare of a sunspot located near the Sun's South Pole. A huge column of gas or plasma was quickly thrown into space, climbing in height to a distance of up to 15 thousand kilometers from the planet's surface.
Once the plasma leaves the launch, it sps into the depths of space in the form of a coronal mass ejection (CME).
This unique visual feast was captured by veteran astrophotographer Yudu Shebagal Poppo. It is captured at the moment when the plasma plume detachs from the surface of the Sun.
The resulting plasma column was so huge that I had to adjust the camera position to fit the frame of this huge object," he says.
What makes this event unique is that it took place in a very special place - at the south pole of the sun. Most sunspot eruptions occur near the planet's equator, near the magnetic poles, where the magnetic field is at its most powerful.
However, due to the location of the flare, the coronal mass ejections are not directed at Earth or other planets in the solar system.
Experts share a common view on this, arguing that this unique eruption originates from the mysterious polar coronal filament, a magnetic ring that revolves around the sun's magnetic poles. The plasma plume that ejects from the flare is called the polar corona sun.
It is not uncommon to see the most dynamic phase of the 11-year solar cycle, the solar maximum. At this stage, the magnetic loop surrounds the poles like a tight noose. When these rings are squeezed tighter and tighter, they prevent the flow of nearby magnetic fields, which in turn exacerbates the probability of **.
First of all, we should not ignore the fact that one of the negative effects of solar activity on the space environment is the movement of the ionosphere. The presence of high-energy charged particles in solar storms can cause ionospheric disturbances, further affecting areas of technology that rely on radio signals, such as radiocommunications and satellite navigation. This interference not only causes noise and bit errors during signal transmission, but can also lead to satellite failures and communication interruptions.
Second, solar activity has the potential to trigger magnetic storms. Whenever a solar storm erupts, its intense electromagnetic radiation will not only interfere with the earth's magnetic field, but also produce a magnetic storm, during which satellites and other spacecraft on the earth are attacked by high-energy particles and electromagnetic radiation, resulting in serious damage to electronic equipment and even endangering the lives of astronauts.
On top of that, solar activity could create a staggering amount of plasma in the space environment. Once a solar storm hits, the plasma on the surface of the sun is pushed into space, forming a massive plasma cloud. This has a huge impact on the movement of particles and gases in the space environment, and may lead to changes in the atmospheres of the planets and moons of the solar system.
According to experts**, the peak of solar activity will come as scheduled in the coming months, perhaps even earlier than expected.
Network data, cautious identification.
Personal opinion, for reference only.