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The magnet of the Milky Way neutron star constellation, called SGR 1935 + 2154, may have helped solve the mystery of fast-moving deep-space radios that have puzzled astronomers for years.
Observatories around the world recorded an explosion of incredibly clear milliseconds of radio waves on April 28, followed by clear X-ray emissions, Tanjug writes in the Australian scientific journal Saysens Alert.
Astronomers are still analyzing the data, but most agree that the event could finally be discovered. a source of fast radio waves (FRB) that has been searched for years.
Fast radio waves are one of The most fascinating mysteries of the cosmos.
These extremely powerful radio signals from deep space, a galaxy a million light-years away, emits more energy than 500 million suns. However, they last less than the blink of an eye and most are not repeated, making them very difficult to study.
Possible explanations ranged from supernova to aliens, but one of the most likely possibilities is that radio waves are produced by magnets, strange neutron stars, an extremely dense nucleus formed by compressing the star to the supernova.
Magnets have magnetic fields approximately 1,000 times more powerful than ordinary neutron stars, and why this is so has not yet been explained.
The SGR 1935 + 2154 magnet was discovered on April 27 and initially appeared relatively normal, similar to other magnets.
However, the next day, the Canadian CIME telescope made an unprecedented discovery, a signal so powerful that the system was unable to quantify it.
“This has never been seen before,” Srinivas Kulkarni of the California University of Technology told Science Alert.
What distinguishes this space event from the others previously recorded are X-rays.
“The SGR 1935 + 2154 radiograph was not particularly strong or unusual, but it is a very intriguing result and supports theThe connection between fast magnetic radio waves and magnets“Says Sandro Meregeti, from the Italian National Institute of Astrophysics.
Scientists have yet to analyze the spectrum of this radiation emission and determine if there are any similarities to the spectra of high-speed extragalactic radio waves.
Regardless of what the newly discovered SGR 1935 + 2154 magnet says, science is still far from completely solving the complicated puzzle that these incredible signals represent.
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