Here’s How the Milky Way’s Black Hole Ejected a Star Towards Intergalactic Space at 6 Million km/h

What we are seeing here is "a visitor from a strange land..."

During a time that mankind’s ancestors were learning to walk upright, how to use their hands and how to create the first primitive tools, cosmic events left a mark in our galaxy that would later be seen by our developed society, millions of years later.

Astronomers have traced the trajectory of a so-called hypervelocity star through time, concluding that it was booted from the monstrous black hole at the center of our galaxy during a time when civilization as we know it did not even exist.

Dubbed S5-HVS1, this cosmic body is an “A-type main-sequence star” and is considered the fastest one ever discovered by astronomers. Measurements of its trajectory have revealed the cosmic body is traveling at almost 1,755 km/s, or around four million miles an hour.

The black hole at the center of our galaxy, Sagittarius A*, has been visualized in virtual reality for the first time. Image Credit: J.Davelaar 2018
The black hole at the center of our galaxy, Sagittarius A*, has been visualized in virtual reality for the first time. Image Credit: J.Davelaar 2018

This was, according to astronomers’ calculations, around 5 million years ago. The dramatic ejection marked the confirmation of the so-called Hills mechanism.

The Hill mechanism takes place when a binary star is disrupted by a supermassive black hole. Our Milky Way Galaxy, for example, is home to Sagittarius A*, a supermassive black hole which has approximately 4 million times the mass of the Sun. The Hills mechanism describes how stars are pulled apart and then left to continue their separate journey.

What astronomers measured in 2019 was precisely that; a star pulled into orbit around a black hole, while its companion star was jettisoned towards intergalactic space at incredibly high velocity.

To understand the origin of S5-HVS1, astronomers studied the kinematics and traced the orbit backward in time. Incredibly, they discovered that the star could be traced back to the Milky Way’s Galactic Center where it was expelled at a speed of 1800km/s between 5 and 4.8 million years ago, which makes S5-HVS the first clear demonstration of the Hill Mechanism, and one of the fastest stars in the galaxy.

A 3D Illustration of a black hole. Light and gas rotate on the accretion disk. Light flashes and glow around a black hole. Shutterstock.
A 3D Illustration of a black hole. Light and gas rotate on the accretion disk. Light flashes and glows around a black hole. Shutterstock.

The star was observed in its journey approaching Earth at a distance of around 29,000 light-years away, traveling more than ten times faster than any other star in the Milky Way Galaxy.

Such is its speed that astronomers say that one day, inevitably, it will exist the Milky Way galaxy and never return.

The discovery was of great importance but a surprising one as well.
Astronomers have theorized for years that Black Holes could eject stars at unimaginable speed but never have experts before associated a fast-moving-star with the black hole at the center of the galaxy.

Observing and measuring the trajectory of S5-HVS1 is of great importance to astronomers since it must have formed in the galactic center, and that by itself is unique; the environment at the center of the Milky Way is completely alien compared to our own local galactic environment. This makes S5-HVS1 “a visitor from a strange land.”

Source
Monthly Notices of the Royal Astronomical Soceity
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