Science

1,284 new planets identified by Kepler team

NASA has announced the discovery of 1,284 new planets using the Kepler telescope, more than doubling the number of known exoplanets discovered using the planet-hunting space telescope.

New technique lets scientists confirm planet discoveries without ground-based telescopes

This artist's concept depicts select planetary discoveries made to date by NASA's Kepler space telescope — 1,284 new planet discoveries were announced today. (W. Stenzel/NASA)

The Milky Way just got a lot more crowded — with planets.

NASA on Tuesday announced 1,284 new planets orbiting stars outside our solar system, called exoplanets. That's on top of the approximately 1,000 previously authenticated exoplanets detected by the Kepler Space Telescope since its launch in 2009.

Scientists taking part in the news conference were ecstatic — it's the biggest planetary collection ever verified in a single swoop.

"One of the great questions of all time, and one of NASA's science objectives in our journey to the solar system and beyond, is whether we are alone in the universe," said Paul Hertz, director of astrophysics for NASA. "The first step in answering this question is to detect and understand the population of planets around other stars."

According to NASA, more than 3,200 exoplanets have now been confirmed, out of nearly 5,000 candidates discovered to date from all sources, including ground observatories. Kepler has accounted for the vast majority.

The old process for confirming planets among the Kepler-identified candidates involved slow and laborious follow-up observations by ground telescopes.

This new batch of planets comes from a statistical analysis led by Princeton University researcher Timothy Morton. And there are sure to be more — possibly as many as 1,327 more from among the Kepler-detected candidates listed in the telescope catalogue as of last July.

"This is the most exoplanets that have ever been announced at one time," Morton told reporters. The research was published Tuesday by Astrophysical Journal.

Princeton's method — using a fast and automated software system called Vespa — puts the likelihood of true planethood for each confirmed planet at more than 99 per cent. Vespa relies on thousands of incoming signals from Kepler's candidate planets. A periodic dip in a star's brightness is the telescope's tip-off of a potential planet.

The Princeton technique verified 984 previously confirmed planets spotted by Kepler, which spent four years peering continuously at 150,000 stars in a particular swath of sky. This new method also concluded that slightly more than 700 other candidate planets detected by Kepler are likely impostors, possibly small companion stars.

Of the 1,284 newly verified planets, nearly 550 of them are thought to be Earth- or super Earth-sized and quite possibly rocky, according to NASA. This includes more than 100 new planets estimated to be 1.2 times the radius of Earth or smaller.

Nine of these close-to-Earth-sized planets appear to orbit in the habitable zone of their stars. The tally for this Goldilocks zone of not too hot and not too cold, allowing for liquid water, now stands at 21 exoplanets following Tuesday's announcement.

Natalie Batalha, Kepler mission scientist at NASA's Ames Research Center in Mountain View, California, calls this exclusive list the "hall of fame."

Kepler is, by far, the keenest spy when it comes to exoplanets. It had a close call last month when it went into emergency mode, 120,700,800 kilometres away. Flight controllers managed to resuscitate the craft.

Mission manager Charlie Sobeck assured reporters Tuesday that the problem, while still unidentified, appears to have been transient and the telescope is performing just as well as before the episode. It's on an extended mission, having completed its primary objectives in 2012.

NASA plans to launch another planet-hunter next year. Scientists said the Princeton method will be directly applicable to future missions as well.

All this is going to change the way we see the universe, Batalha said.

"When you look up in the sky, you're not just going to see pinpoints of lights and see them as stars. You're going to see pinpoints of lights and see them as planetary systems," she said