Six exoplanets discovered in synchronized dance around star
Six exoplanets have been spotted in a perfectly synchronized dance around a nearby star, offering clues about the formation of our own Solar System, astronomers said on Wednesday, Nov. 29.
The six planets orbit the bright star HD 110067 around 100 light years away from Earth. The star is visible from the Northern Hemisphere as part of the Coma Berenices constellation.
The planets are so close to their star that all six would all fit into the orbit of Mercury and our Sun, Adrien Leleu, a researcher at the University of Geneva, told AFP.
All of the very hot planets are somewhere between the size of Earth and Neptune, said Leleu, the co-author of a new study published in the journal Nature.
All six have a similar makeup to Neptune—"a rocky body covered with a thick envelope of gas," he added.
None of these "sub-Neptunes" are thought to be far away enough from their star to host liquid water, a key ingredient for supporting life.
While not habitable, they are remarkable in another way: All six planets are precisely synchronized with each other in their orbit.
NASA's Transiting Exoplanet Survey Satellite (TESS) first discovered two exoplanets orbiting the star in 2020.
The satellite, known as the exoplanet hunter, spotted the pair by measuring the change in brightness when they passed over their host star.
The planet closest to the star orbits around it in just nine days.
However, there were some indications that other planets could be passing over the star, which astronomers suspected were orbiting over a longer period.
HESS is designed to scan the sky for a few weeks, so was not the best hunter for planets with longer orbits.
So the European Space Agency's Cheops satellite, which can target a star for much longer, was brought into the chase.
Over time, Cheops managed to spot four more planets.
In lockstep
The planets carry out a delicate dance called "orbital resonance" in which the gravity of each keeps the others in rhythm.
In the time that the first planet carries out three trips around its star, the second planet does two revolutions. When the second planet goes around three times, the third planet has done two orbits, and so on.
The last planet completes one orbit in the time it takes the first to do six—proof that they are all connected by a "resonance chain," Leleu said.
More than 5,000 exoplanets, planets outside our Solar System, have been discovered since the first was spotted in 1995—but this system is the first to have so many planets acting in such harmony.
But in theory, this is how all planets start off, said the study's lead author Rafael Luque of the University of Chicago.
The HD 110067 system is believed to have remained virtually unchanged since its birth at least four billion years ago.
However the planets of our home Solar System, which is not much older, do not orbit in sync, Leleu said.
This could be because of "frequent chaotic events" after the birth of the Solar System, such as the formation of giant planets like Jupiter and Saturn, which could have destabilized the orbits of the smaller planets, Luque said.
It also could have been because of some giant meteorite, he added.
The astronomers hope that the new system will help understand the history of our Solar System—and how it lost its rhythm. (AFP)