|
A
tiny asteroid looping around Earth for the past seven years
is about to leave the neighborhood.
+ Play Audio |
+ Download Audio | +
Email to a friend | + Join mailing
list
June 9, 2006: News flash: Earth has a "second
moon." Asteroid 2003 YN107 is looping around our planet
once a year. Measuring only 20 meters across, the asteroid
is too small to see with the unaided eye—but it is there.
This
news, believe it or not, is seven years old.
 "2003
YN107 arrived in 1999," says Paul Chodas of NASA's Near
Earth Object Program at JPL, "and it's been corkscrewing
around Earth ever since." Because the asteroid is so
small and poses no threat, it has attracted little public
attention. But Chodas and other experts have been monitoring
it. "It's a very curious object," he says.
Right:
The typical corkscrew path of an Earth Coorbital Asteroid.
[More]
Most
near-Earth asteroids, when they approach Earth, simply fly
by. They come and they go, occasionally making news around
the date of closest approach. 2003 YN107 is different: It
came and it stayed.
"We
believe 2003 YN107 is one of a whole population of near-Earth
asteroids that don't just fly by Earth. They pause and corkscrew
in our vicinity for years before moving along."
These
asteroids are called Earth Coorbital Asteroids or "coorbitals"
for short. Essentially, they share Earth's orbit, going around
the Sun in almost exactly one year. Occasionally a coorbital
catches up to Earth from behind, or vice versa, and the dance
begins: The asteroid, while still orbiting the sun, slowly
corkscrews around our planet.
"These
asteroids are not truly captured by Earth's gravity,"
notes Chodas. "But from our point of view, it looks like
we have a new moon."
Astronomers
know of at least four small asteroids that can do this trick:
2003 YN107, 2002 AA29, 2004 GU9 and 2001 GO2. "There
may be more," says Chodas. He believes the list will
grow as asteroid surveys improve in sky coverage and sensitivity.
At
the moment, only two coorbitals are actually nearby: 2003
YN107 and 2004 GU9. The others are scattered around Earth's
orbit.
2004
GU9 is perhaps the most interesting. It measures about 200
meters across, relatively large. And according to calculations
just published in the Monthly Notices of the Royal Astronomical
Society (S. Mikkola et al., 2006) it has been looping
around Earth for 500 years--and may continue looping for another
500. It's in a remarkably stable "orbit."
 Right
now, however, researchers are paying more attention to 2003
YN107 for one simple reason: it's about to depart. The asteroid's
corkscrew path is lopsided and on June 10th it will dip within
3.4 million km of Earth, slightly closer than usual. Earth's
gravity will then give the asteroid the nudge it needs to
leave.
"This
is a chance to observe one of these asteroids [on the way
out]," explains Chodas.
Right:
Asteroid mining, an artist's concept.
It
won't be gone forever. In about 60 years 2003 YN107 will lap
Earth again, resuming its role as a temporary, corkscrewing
moonlet. In due course, other coorbitals will do the same.
Each
encounter is an opportunity for study--and possibly profit.
Even the most powerful telescopes cannot see much of these
tiny asteroids; they're just specks in the eyepiece. But one
day, when the space program is more advanced (see the
Vision for Space Exploration), it might be possible to
visit, explore the moonlets and tap their resources. "For
now, they're just a curiosity," says Chodas.
News
flash: Earth is about to lose a moon. More to come.
SEND
THIS STORY TO A FRIEND
Author: Dr. Tony
Phillips | Production Editor:
Dr. Tony Phillips | Credit: Science@NASA
| More
Information |
|
Asteroid
3753
Cruithne is often mentioned as an Earth
Coorbital Asteroid, but Paul Chodas feels it does not
fit in this category: "Its orbit is too eccentric
(e = 0.51)," he explains, so it does not perform
the same corkscrew motion characteristic of the others.
Where
do coorbitals come from? "Some of them
may be boulders blasted off the Moon--the real
Moon--by meteorite impacts. Others probably came here
from the asteroid belt," says Chodas. None, he
emphasizes, are big enough to do widespread damage if
they actually hit Earth.
Hot
off the press: This month's issue of the Monthly
Notices of the Royal Astronomical Society contains
a paper about coorbital asteroids: "Stability Limits
for the Quasi-satellite Orbit," by S. Mikkola et
al., MNRAS, 369, 15-24 (2006).
3D
orbits: 2003
YN107
and 2004
GU9.
NASA's
Near Earth Object Program
The
Vision for Space Exploration |
|
