Astronomers discover largest planet orbiting two suns
Astronomers using the US Kepler Space Telescope said on Monday they have found the largest planet yet discovered that orbits a pair of binary stars
Washington: Astronomers using the US Kepler Space Telescope said on Monday they have found the largest planet yet discovered that orbits a pair of binary stars.
The new planet, Kepler-1647b, is 3,700 light-years away and about 4.4 billion years old, roughly the same age as the Earth, according to a team led by researchers from the US space agency NASA's Goddard Space Flight Centre and San Diego State University (SDSU).
This artist's impression by artist Lynette Cook obtained June 13, 2016 from San Diego State University in California shows the simultaneous stellar eclipse and planetary transit events on Kepler-1647. Pic/AFP
The planet has a mass and radius nearly identical to that of Jupiter, making it the largest transiting circumbinary planet ever found, Xinhua reported. The stars it orbits are similar to the Sun, with one slightly larger than our home star and the other slightly smaller.
Planets orbiting two stars are called circumbinary planets, or sometimes "Tatooine" planets, after Luke Skywalker's homeland in "Star Wars". Using NASA's Kepler telescope, astronomers looked for slight dips in brightness that hint a planet might be transiting in front of a star, blocking some of the star's light.
"But finding circumbinary planets is much harder than finding planets around single stars," said co-author William Welsh of the SDSU. "The transits are not regularly spaced in time and they can vary in duration and even depth," Welsh added.
The new planet was first noticed in 2011, but it took the team years to confirm it's indeed a circumbinary planet, with the help of a network of amateur astronomers in the KELT Follow-Up Network, which consists of small and mid-size telescopes used for confirming transiting planets.
"It's a bit curious that this biggest planet took so long to confirm, since it is easier to find big planets than small ones," said SDSU astronomer Jerome Orosz, another co-author on the study. "It took so long to confirm because its orbital period is so long," Orosz added. The planet takes 1,107 days -- just over three years -- to orbit its host stars, the longest period of any confirmed transiting exoplanet found so far.