Researchers detect a high-speed light jet from neutron fusion

Contrary to most experts' opinion, colliding neutron stars produce a jet of matter from very high-speed fusion

This has been confirmed by recent observations on the fusion of Neutron stars observed in August 2017 more than a hundred days after the merged object came out of hiding behind the sun.

Early models predicted that the fusion of two neutron stars would produce a large cocoon of star matter around the resulting object. The latest discoveries, however, overturn the prevailing theory about what is happening as a result of a fusion of neutron stars

Streaming Light Streaming from a Stars Fusion. at Neutrons

A team of astrophysicists at the University of Warwick orbit the Hubble Space Telescope to detect a powerful beam of light from the fusion of neutron stars. The beam was slightly off-center but was directed towards the Earth.

The neutron star melter GW170817 was first detected by the advanced gravitational wave laser (LIGO) observatory on August 17, 2017. It was spotted 130 million light years of the Earth in the galaxy NGC 4993. This was the first fusion of neutron stars observed by humanity and the fifth known example of gravitational waves, a phenomenon predicted by Albert Einstein there are more and more A century

. stained visible light caused by radioactive decay of heavy elements. Since then, however, the glow has faded away and has been replaced by a jet of matter moving at a slight angle to the Earth at almost the speed of light

"This is entirely different from this that some have suggested, "says lead author and physicist Joe Lyman of the University of Warwick

.The researchers propose that neutron fusions create short bursts of gamma rays that come out in an airplane can only be seen on Earth when the flow of matter flows in that direction, however, the experts seldom detect these planes because few of them are directed to the Earth.

"If we had looked directly at this beam, we would have seen a truly powerful explosion of gamma rays," says Andrew Levan, another senior author also of the University of Warwick.

Study Details can be seen in an article published published in the journal Nature Astronomy .

Previous Predictions

Scientists studying GW170817 have detected gravitational waves out of the fusion of the two neutron stars. Twelve hours later, they saw a bright light signal, supposed to be a stellar material ejected from fusion at half the speed of light. Experts say the radioactive decay of heavy elements has caused a glow that could be seen from the Earth.

The merger continued to emit electromagnetic signals weeks after the event. Using the Karl G. Jansky Very Large Array (VLA) telescope in New Mexico, researchers confirmed the existence of radio waves, the nature of which allowed them to predict the events that followed the merger.

on themselves to form a body that is most likely a black hole. This super dense body is small enough, never bigger than a city on Earth, but it is filled with mass and energy that is several times that of the sun.

As the black hole rotates, its strong gravitational pull sucks in the surrounding material. This movement forms a rapidly rotating disc that ejects two jets of star matter from its poles.

Scientists previously believed that when radio signals become stronger, jets of matter lose the ability to exit the sphere of debris. surrounding the merger. Previous observations have shown that radio broadcasts are steadily increasing, leading experts to believe that high-speed jets are a bright cocoon of fusion.