A huge solar tornado and a massive plasma eruption were simultaneously enraged on the surface of the sun. And the researchers captured both in one epic image.
Although solar events are irrelevant, both are the result of the invisible magnetic field disturbances of the sun, with some plasmas being forced into the form of tornadoes and some being released in towering eruptions known as the eruption famous.
Maximilian Teodorescu, a researcher at the Institute of Space Sciences in Romania, captured that both events took place simultaneously on Wednesday (August 20th). He told Live Science that big sun tornadoes are rather rare and have never seen them at the same time as the excellence of the eruption.
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Spaceweather.com reported that astronomers around the world were monitoring tornadoes on the surface of the sun this week, with the earliest images appearing on Sunday (August 17). Sun tornadoes look like tornadoes on Earth, but the two phenomena have little in common, especially in terms of size.
“[The solar tornado is] Approximately 130,000 km [80,000 miles] It’s expensive, Theodrescu said. “It’s basically one-tenth of the diameter of the sun.”
To put that into perspective, the Earth is about 7,926 miles (12,756 km) wide, so this tornado is a little taller than the ten Earths stacked on top of each other. This is Whopper, as sun tornadoes are usually around 15,500-62,000 miles (25,000-100,000 km).
Teodorescu estimated the eruption ridge was about 124,000 miles (200,000 km) wide. This is roughly similar to the giant sun’s excellence observed in July, estimated to be over 100,000 miles (165,000 km) wide, and is called “The Beast.”
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Teodorescu first saw the sun’s tornado on the Global Vibration Network Group (Gong) website on Monday (August 18th). Operated by the National Solar Observatory, the gong has six identical solar telescopes that monitor the sun in near real-time from various countries around the world, allowing amateurs and experts to stay up to date with solar activity.
Teodorescu’s wife and space science researcher Eliza Teodorescu helped to align the telescope’s field of view to the tornado so that images of the event could be captured. An eruption bump then appeared, allowing him to snap both at the same time.
Earth’s tornadoes are whipped and moved around by the intense winds, while the sun’s tornadoes are made of ionized gas (plasma) rooted in place. They are officially called tornado ridges and are regularly promoted by magnetic fields.
According to NASA, asominicity attaches to the visible surface of the sun or the photosphere, extending to the atmosphere or corona outside the star. When the magnetic field holding the plasma becomes unstable and explodes outward, the salience of the eruption occurs. (Lucky Sky Watchers got the chance to see it promoted in real time during the solar eclipse on April 8th last year.)
Often, the plasma is released prominently and then flies into space as a coronal mass ejection (CME). This type of solar storm can collide with the Earth’s magnetic field, creating auroras, and destroying satellites and communication systems.
Maximilian Teodorescu pointed out that the excellence of the eruption he filmed released the CME. But it doesn’t lead to confusion or aurora displays as it’s not heading towards us, he said. However, since Earth is currently buffered by solar winds for other solar activity, aurora could be visible at high latitudes tonight, reported Live Science’s sister site Space.com.
The sun is currently at the most active stage of the approximately 11-year solar cycle known as the sun’s maximum when the star’s magnetic field weakens and flips. Maximilian Teodorescu noted that there is a lot of solar activity to see even a small telescope.
“It’s the most dynamic thing you can actually see as both [an] Amateurs and the sky experts,” he said.
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