Magnetars: Strongest Magnets In The Universe In Focus

| October 10, 2019 | Astronomy | No Comments

Eddie Gonzales Jr. – MessageToEagle.com – How do some neutron stars become the strongest magnets in the universe?

A German-British team of astrophysicists has found a possible answer to the question of how magnetars form. They used large computer simulations to demonstrate how the merger of two stars creates strong magnetic fields. If such stars explode in supernovae, magnetars can result. Scientists from Heidelberg University, the Max Planck Society, the Heidelberg Institute for Theoretical Studies, and the University of Oxford were involved in the research.

The simulation marks the birth of a magnetic star such as Tau Scorpii. The image is a cut through the orbital plane where the colouring indicates the strength of the magnetic field and the light hatching reflects the direction of the magnetic field line. | © Ohlmann/Schneider/RöpkeThe simulation marks the birth of a magnetic star such as Tau Scorpii. The image is a cut through the orbital plane where the coloring indicates the strength of the magnetic field and the light hatching reflects the direction of the magnetic field line. | © Ohlmann/Schneider/Röpke

The universe is threaded by magnetic fields. The sun, for example, has an envelope in which convection continuously generates magnetic fields.

“Even though massive stars have no such envelopes, we still observe a strong, large-scale magnetic field at the surface of about 10 percent of them,” Dr. Fabian Schneider from the Centre for Astronomy of Heidelberg University, and the first author of the study said in a press release.

Over a decade ago, scientists suggested that strong magnetic fields are produced when two stars collide. This time, the researchers used the AREPO code, a highly dynamic simulation code running on computer clusters of the Heidelberg Institute for Theoretical Studies (HITS), to explain the properties of Tau Scorpii (τ Sco), a magnetic star located 500 light-years from Earth.

In 2016, Fabian Schneider and Philipp Podsiadlowski from the University of Oxford realized that τ Sco is a so-called blue straggler. Blue stragglers are the product of merged stars. “We assume that Tau Scorpii obtained its strong magnetic field during the merger process,” explains Prof. Dr. Philipp Podsiadlowski. Through its computer simulations of τ Sco, the German-British research team has now demonstrated that strong turbulence during the merger of two stars can create such a field.

Stellar mergers are relatively frequent. Scientists assume that about 10 percent of all massive stars in the Milky Way are the products of such processes. This is in good agreement with the occurrence rate of magnetic massive stars, according to Dr. Schneider.

Astronomers think that these very stars could form magnetars when they explode in supernovae.

Paper

Written by Eddie Gonzales Jr. – MessageToEagle.com Staff

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