Today, researchers on NASA’s Kepler planet hunting mission didn’t announce one new interesting planet, as they usually do. Instead, they announced about 1,200 of them.
That more than doubles the number of confirmed planets in the catalog. As of yesterday, the listed number stood at 1,041 confirmations. The new planets aren’t a result of the K2 mission, though. Instead, it’s about new software that enabled Kepler researchers to parse out the signal from noise in candidate planets.
Jeff Coughlin, a SETI Institute researcher who helps NASA put together the Kepler catalog, said that the 1,284 new planets are validated to 99 percent certainty. This means that they are all almost certainly planets.
“Adding in these 1,200 really doubles our sample of really high confidence planets,” Coughlin says.
The refinement techniques account for any star in the region that might give a false transit signal, as well as accounting for the size of any transiting object to rule out image artifacts or flaws in Kepler’s imaging.
But the new software’s true strength is its ability to sort through hundreds of candidates at once.
“People have done this for single targets in the past, but it was very computationally intensive,” Coughlin said.
While Kepler has often touted finding the latest “most Earth-like planet,” or systems of planets in strange orbital configurations, the sheer volume means the researchers are still combing through the dataset for intriguing planets. The paper, set to be published in the Astrophysical Journal today, puts the number of potentially habitable worlds in the dataset around nine total. Coughlin said the new catalog also includes long-period planets. One such planet, Kepler-1638b, has a period of 259 days, placing its year somewhere in between Venus and Earth.
Long and Short Of It
Long-period planets are important because they’re more in line with what we know from our solar system. Kepler has a bias toward short period planets, those that complete an orbit within a few days. The original Kepler data set comes from a little under four years of observation. So if an alien civilization had been staring at our Sun with their own Kepler, they probably would have detected Mercury and Venus, maybe detected Earth and Mars, and not detected any of the larger planets, as some of the dips in light may have happened only twice, once, or not at all. Kepler requires three transits to prove a planet’s status as real.
When something is hard to detect, “those are also the hardest ones to get telescope time to follow up on,” Coughlin says.
Kepler-452b, the “cousin planet” to Earth, was found by better sorting through data, allowing a 385-day-period planet to be extracted. In that case, the planet was not only Earth-like because it was similar in size, but because it had an Earth-like year. There may be others like it in the data.
“The real importance is the prime mission of Kepler, which is to find out how many planets like Earth are out there,” Coughlin says.