Astronomers have identified four new exoplanets, worlds beyond our solar system, orbiting a pair of related young stars called TOI 2076 and TOI 1807. The two stars, only 130 light years away, and their ‘teenage’ planets may help unlock a mystery of the universe – how planetary systems, including our own, evolved.
NASA has announced the discovery, confirmed by an international team of astrophysicists including the University of Southern Queensland’s Dr George Zhou. Stars TOI 2076 and TOI 1807 reside over 130 light-years away with 30 light-years between them. Both are dwarf stars more orange than our Sun and around 200 million years old (less than 5 percent of the Sun’s age).
Surrounding TOI 2076 is a system of three planets between the diameters of Earth and Neptune. Innermost planet TOI 2076 b is about three times Earth’s size and circles its star every 10 days, while outer worlds TOI 2076 c and d are both a little over four times larger than Earth with orbits exceeding 17 days.
TOI 1807 hosts only one known planet, TOI 1807 b, which is about twice Earth’s size and orbits the star in just 13 hours. Exoplanets with such short orbits are rare and TOI 1807 b is the youngest example yet discovered of one of these so-called ultra-short period planets.
The astronomy team believed the stars were too far apart to be orbiting each other, but their shared motion suggested they were siblings, born from the same cloud of gas.
“The stars produce perhaps 10 times more UV light than they will when they reach the Sun’s age,” Dr Zhou said. “Since the Sun may have been equally as active at one time, these two systems could provide us with a window into the early conditions of the solar system.”
“They’re not newborns, but they’re also not settled down. Learning more about planets in this teen stage will ultimately help us understand older planets in other systems.”
The Transiting Exoplanet Survey Satellite (TESS) monitors large swathes of the sky for nearly a month at a time. This long gaze allows the satellite to find exoplanets by measuring small dips in stellar brightness caused when a planet crosses in front of, or transits, its star.
The University of Southern Queensland’s Mt Kent Observatory provides a key support role for TESS using MINERVA-Australis, the southern hemisphere’s only dedicated robotic exoplanet observing facility.