How is Magnetar born? Examine the current theory and solve the mystery

When a star explodes at the end of his life, he can turn into a neutron star, Under certain conditions, it leads to a rare species known as magnetars.. In a new study, a group of researchers argue that the current magnetic understanding can be at least partially wrong.

In an article published in Astronomy & Astrophysics Scientific magazine, it explains that they use scientists Data from Hubble and Gaia Space Telescopes to analyze Magnetar Sgr 0501+4516 featuresAbout 15,000 light years away from the world.

According to the researchers, since the results show that SG 0501+4516 does not have the expected characteristics of this mechanism, the educational process of generally accepted by science may be wrong.

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According to the current understanding, astronomers believe that a magnetic can only emerge after the explosion of a large star: A Supernova. In some cases, this explosion will leave behind a core full of magnetism to form the object. An example is SGR 0501+4516, which many scientists believe that Supernova HB9 believes to be the remains of Supernova.

“Although the exact source of SG 0501+4516 is not clear yet, we recommend that it is the best candidate of our galaxy created by a different mechanism than the core collapse of a large star.”

The birth of a magnetar

With the data from Hubble and Gaia telescopes, the researchers analyzed the speed and movement of the magnetar and realized that this information did not coincide with the theory that SGR 0501+4516 would originate from Supernova HB9. If he was really born out of this explosion, he should follow a certain orbit and speed that is not observed in the data.

The authors of the study benefit from three new possibilities:

• First, he may have graduated so long ago, that there is no trace of the original explosion and there are no 20,000 years, as scientists predicted;
• The second is that the magnatar comes out of the fusion of two small neutron stars;
• The last hypothesis is the emergence of the object after the explosion of a white dwarf star.

Anyway, the data shows that perhaps all magnets are not due to the explosion of a large star, such as data about SG 0501+4516.

“Birth rates and magnetic formation scenarios, the universe of the universe Gamma Ray explosions, super -limited supernova and fast radio explosions, such as the most powerful temporary events for many of the most powerful astrophysics are among the most powerful effects.” He said.

Some stars are surprised by offering the expected standard features and in some cases challenge their targets logic. Do you want to know more? Find out if a star can be a planet. Until next time!