NASA's WISE mission finds first Trojan asteroid sharing Earth's orbit

Because Trojans constantly lead or follow in the same orbit as the planet, they never can collide with it.

By NASA Headquarters, Washington, D.C. — Published: July 28, 2011

This artist's concept illustrates the first known Earth Trojan asteroid, discovered by WISE. The asteroid is gray and its extreme orbit is shown in green. Image credit: Paul Wiegert, University of Western Ontario, Canada

Astronomers studying observations taken by NASA's Wide-field Infrared Survey Explorer (WISE) mission have discovered the first known "Trojan" asteroid orbiting the Sun along with Earth.

Trojans are asteroids that share an orbit with a planet near stable points in front of or behind the planet. Because they constantly lead or follow in the same orbit as the planet, they never can collide with it. In our solar system, Trojans also share orbits with Neptune, Mars, and Jupiter. Two of Saturn's moons share orbits with Trojans.

Scientists had predicted Earth should have Trojans, but they have been difficult to find because they are relatively small and appear near the Sun from Earth's point of view.

"These asteroids dwell mostly in the daylight, making them very hard to see," said Martin Connors from Athabasca University in Canada. "But we finally found one because the object has an unusual orbit that takes it farther away from the Sun than what is typical for Trojans. WISE was a game-changer, giving us a point of view difficult to have at Earth's surface."

The WISE telescope scanned the entire sky in infrared light from January 2010 to February 2011. Connors and his team began their search for an Earth Trojan using data from NEOWISE, an addition to the WISE mission that focused, in part, on near-Earth objects (NEOs) such as asteroids and comets. NEOs are bodies that pass within 28 million miles (45 million kilometers) of Earth's path around the Sun. The NEOWISE project observed more than 155,000 asteroids in the main belt between Mars and Jupiter, and more than 500 NEOs, discovering 132 that were previously unknown.

The team's hunt resulted in two Trojan candidates. One called 2010 TK7 was confirmed as an Earth Trojan after follow-up observations with the Canada-France-Hawaii Telescope on Mauna Kea in Hawaii.

The asteroid is roughly 1,000 feet (300 meters) in diameter. It has an unusual orbit that traces a complex motion near a stable point in the plane of Earth's orbit, although the asteroid also moves above and below the plane. The object is about 50 million miles (80 million km) from Earth. The asteroid's orbit is well defined, and for at least the next 100 years, it will not come closer to Earth than 15 million miles (24 million km).

"It's as though Earth is playing follow the leader," said Amy Mainzer from NASA's Jet Propulsion Laboratory (JPL) in Pasadena, California. "Earth always is chasing this asteroid around."

A handful of other asteroids also have orbits similar to Earth. Such objects could make excellent candidates for future robotic or human exploration. Asteroid 2010 TK7 is not a good target because it travels too far above and below the plane of Earth's orbit, which would require large amounts of fuel to reach it.

User Comments

Be the first to leave your comment below!

Only registered members of Astronomy.com are allowed to comment on this article. Registration is FREE and only takes a couple minutes.

Register Today!

DALE W FENSKE from OREGON said:

50,000,000 miles away and 1000 feet in diameter. How can I find this object in my telescope?

It is about 1/10th of Earth's orbit ahead of us, so it seems like it should be visible several hours in the morning hours before sunrise, looking along the ecliptic.

Submitted: 10/29/2011 1:54:33 PM (CST)

EDMUND SYLVIS from ARIZONA said:

For some reason the links in my comment on 08-26-2011 were dropped. Probably the format that I submitted them in. Here they are again in a different format:

Discovery of first Trojan asteroid in a stable zone near Neptune - Astronomy News

http://www.astronomy.com/News-Observing/News/2010/08/Discovery of first Trojan asteroid in a stable zone near Neptune.aspx

Of Mars-Troy-and their asteroids - David Levy's column "Evening Stars"

http://www.astronomy.com/Columnists/David Levy/2011/04/David H,-d-, Levys Evening Stars - Of Mars-Troy-and their asteroids.aspx

Keep on gazing!

-Ed

Submitted: 8/30/2011 2:01:00 PM (CST)

EDMUND SYLVIS from ARIZONA said:

Very interesting article and comments. I couldn't help but notice that at least half of the comments are questions that have remained answered, so I'll try to help. Philp Osterlund's comment and quote from Scientific American is an excellent answer to the questions regarding what is meant by a planet that "has 'cleared its neighborhood' of smaller objects around its orbit.

As for the questions regarding TK7's orbit, I hope this helps. First, since TK7 is a Trojan Asteroid, it is located in the area of the Lagrangian point L4 or L5 - in this case, L4 (currently). It should also be noted that the artist's conception can be misleading since it doesn't relate the orbital paths with reference to time; the green spirals of TK7 each take a year to complete. There are many factors that govern a Trojan's orbit, or any orbit for that matter. For a Trojan object these include but are not limited to Lagrangian points, orbital dynamics, and orbital resonance. Due to the complex nature of the subject, I'm going to leave the explanation at that. For those who desire a more in depth understanding, start with Lagrangian points.

For more information on Trojan asteroids and Lagrangian points, see the following Astronomy magazine articles:

Keep on gazing!

-Ed

Submitted: 8/26/2011 6:57:50 PM (CST)

MIKE COOK from WASHINGTON said:

It would not be prohibitive to send a probe to TK7 because all you have to do is time out your shot so that the probe arrives when TK7 is crossing from the lobe of the plane above Earth's orbit to the lobe below it.

Submitted: 8/11/2011 9:48:35 AM (CST)

PHILIP OSTERLUND from MINNESOTA said:

Wikipedia gives as part of the definition of a planet that it "has 'cleared its neighbourhood' of smaller objects around its orbit. In the January, 2007 issue of Scientific American, it states : "CLEAR DIVISION between planets ... and lesser bodies ... is evident in their mass ratio [mu] —the mass of a body divided by the total mass of all other bodies that share its orbital zone. All eight planets have a [mu] value of at least 5,000, whereas Pluto’s is less than 1. A [mu] value of 100 serves as a convenient
dividing line between planets and nonplanets in our solar system.

Submitted: 8/9/2011 12:05:57 AM (CST)

LAWRENCE WILSON from MAINE said:

A wild orbit like this is certainly fun to imagine. But having just read that the moon may have had a companion that it also shared an orbit with, and ended up slowly spilling themselves together into one orb. It makes me wonder that anything can happen to change what we may beleive to be true.

Submitted: 8/7/2011 11:31:39 AM (CST)

FREDERICK MARTELLO from NEW JERSEY said:

The most interesting thing here is the way the asteroid orbits the gravity well, instead of an actual object. Or am I misunderstanding the graphic?

Submitted: 8/7/2011 10:07:57 AM (CST)

WINN GILLETTE from CALIFORNIA said:

Don't orbiting objects need a focal point around which to orbit?
For example: the Moon around the Earth, the planets around the Sun, etc.
I don't see any indication of what Asteroid 2010 TH7 is orbiting around. Another asteroid?

Submitted: 8/7/2011 6:18:45 AM (CST)