Superfast changes to the intensity of a jet blasting out from a small black hole have been detected for the first time.
Astronomers have spotted mysterious changes in a jet of highly magnetic plasma blasted out by a small black hole that is gorging on gas and dust.
The feature takes the form of periodic changes in the jet occurring within a fraction of a second that have been detected by the Five-hundred-meter Aperture Spherical radio Telescope (FAST) in China.
Astronomers know that the strange blinking object, called GRS 1915+105, consists of a regular star orbiting a stellar black hole, a black hole that was born after a massive star had died. As the star orbits the black hole, some of its material gets sucked into the cosmic monster, which fails to swallow all of the material and instead accelerates some of it into the jet that appears to squirt from its poles.
The team behind the observation thinks that the measured changes in the jet's energy could be due to the fact that the black hole's rotation isn't aligned with its accretion disk, the disk of orbiting matter it is feasting on. That could be causing the jet to wobble almost like a cosmic spinning top. When the jet points away, its energy drops. A fraction of a second later, it returns to normal when the system rotates back.
GRS 1915+105 is what researchers call a micro quasar, a star-scale version of a quasar. Quasars are extremely bright galactic hearts that harbor supermassive black holes that are millions or even billions of times more massive than the sun.
These cosmic titans draw in surrounding matter with the force of their enormous gravity. Some of this matter falls past the black hole's event horizon, the point of no return from beyond which not even light can escape. Some material, however, escapes this fate and instead gets channeled toward the black hole's poles, emanating into space in the form of the super-energetic jets. This is also happening in micro quasars, albeit on a much smaller scale.
Officially called quasi-periodic oscillations (QPO), changes seen in GRS 1915+105, have never been seen in radio waves from such a black hole before. QPOs are useful for understanding the physics of black holes and their surrounding systems, so this observation of this changing micro quasar, located around 28,000 light-years from Earth in the direction of the constellation Aquila, could shed light on the feeding habits of smaller black holes.
This QPO, seen in radio waves, could be the first evidence of changes in jets of this type, but what exactly is causing these oscillations remains a mystery.
"Other possibilities exist, though, and continued observations of this and other galactic micro quasars will bring more clues to understand these mysterious QPO signals," said Zhang.
The team’s research was published in the July 26 edition of the journal Nature
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