[meteorite-list] Japan Shoots For a Piece of an Asteroid (Hayabusa)

From: Ron Baalke <baalke_at_meteoritecentral.com>
Date: Tue Jun 7 16:46:34 2005
Message-ID: <200506072045.j57KjrW17907_at_zagami.jpl.nasa.gov>

http://msnbc.msn.com/id/8131678/

Japan shoots for a piece of an asteroid

Hayabusa sample-return mission nears critical stage

By James Oberg
NBC News space analyst
Special to MSNBC
June 7, 2005

A celestial "smash-and-grab" space mission that could become the
greatest triumph in the history of the Japanese space program is
entering its most challenging stage in deep space.

Together with NASA's comet-crashing Deep Impact mission and the European
Rosetta spacecraft, Japan's Hayabusa probe is helping inaugurate a new
era of interplanetary exploration: the physical examination of the
surfaces of small bodies such as comets and asteroids.

The Hayabusa probe is slowly closing in on a distant asteroid named
Itokawa. Within a few months, after surveying the asteroid thoroughly
from a safe distance, Hayabusa will swoop down to its surface and grab
samples of the dirt for return to Earth, like a spacefaring bird of
prey. In fact, the spacecraft's name comes from the Japanese word for
"peregrine falcon."

Already closer to the asteroid than the distance between Earth and its
moon, Hayabusa is approaching at a relative speed of 225 mph (100 meters
per second) and is firing its gentle but exceedingly persistent engine
to further slow its speed.

The probe uses an ion-drive system pioneered by NASA's Deep Space 1
comet scout, but with a distinctive design innovation. It is the first
probe to use microwaves to ionize the xenon fuel. Through electrostatic
deflection - like charges repel each other - the four engines can
produce a slow-but-steady gain or loss in total speed amounting to as
much as 27 mph (12 meters per second) per day.

That's about the same velocity gain that a rising rocket booster racks
up in half a second. But traditional thrusters operate only sporadically
for a few seconds or a few minutes at a time. In contrast, Hayabusa has
been thrusting for two years, and now it has essentially reached its
distant goal.

"The distance is within 400,000 kilometers [250,000 miles]," project
manager Junichiro Kawaguchi of Japan's Institute of Space and
Astronautical Science reported in an e-mail exchange with msnbc.com.

Although Hayabusa took detailed pictures of Earth
during a high-speed flyby last year, it has yet to turn its camera onto
its target. "The asteroid is small," Kawaguchi explained, "and also the
attitude constraint [for firing its braking engines] restricts the
camera to be oriented to the object."

The probe and nearby asteroid will pass behind the sun next month,
restricting radio contact. Images should start coming in once the radio
interference clears up, Kawaguchi said. "In mid-August, it should be
seen at the magnitude of 5 or so," he explained, initially only as a dim
speck of light that will grow gradually brighter. (As seen from the
spacecraft's point of view, a magnitude-5 object would be slightly
brighter than the dimmest light sources that can be seen from Earth with
the naked eye.)

Delayed arrival

When Hayabusa was launched two years ago, mission planners expected the
probe to be already at the asteroid by this time - but the schedule was
delayed because of a crippling event that occurred during the voyage.

"It is due to the heavy solar cell damage caused by the historical
largest solar flare that occurred in 2003," Kawaguchi explained. The
consequent reduction in electrical power from the craft's solar cells
caused Hayabusa's electrical propulsion system to lose thrust.

The probe is now expected to arrive at its "home station" stand-off
position early in September.

The delay has been worrisome, however, because there's only one safe
route home with the samples, and that requires the probe's departure
from the asteroid in mid-November. For the kind of trajectory that the
craft's ion-powered engines can achieve, it's a matter of leaving on
time, or becoming a permanent asteroid resident.

Consequently, all the scouting and remote-sensing operations that had
originally been planned to take three or four months must now be
accomplished in half the time. This advance reconnaissance is essential
if the actual landings - and several are planned - are to have any
reasonable chance of success.

The target

Hayabusa is aimed at a small piece of space debris once known as
"Asteroid 1998 SF36" - signifying that it was discovered only a few
years ago and was too small for anybody to bother to name. But once it
had been selected as a sampling target, the International Astronomical
Union acceded to Japan's request to name it after Hideo Itokawa, the
father of Japanese rocketry.

The potato-shaped asteroid measures about a quarter-mile (500 meters)
wide, with a gravitational pull hardly more than a millionth of Earth's.
Itokawa's gravity is so faint that the probe won't even bother to orbit
the asteroid. Instead, it will hover about 12 miles (20 kilometers)
away, surveying the surface both from the full sunlit side and then
later from above the boundary between day and night.

Itokawa's shape and density are uncertain, and its 12-hour rotation
period creates extra navigation hazards during the Hayabusa probe's slow
approach.

After several weeks of surveying, the probe would begin its main task:
retrieving about a gram (0.036 ounce) of dirt from up to three points on
the surface, and then returning the samples to Earth two years later.
The probe is too far away for real-time remote control from Earth, so to
perform this delicate operation the probe has a sophisticated autopilot.

How it will be done

Using small liquid-fueled engines (rather than the low-thrust ion drive
that serves during interplanetary cruising), Hayabusa will approach a
pre-selected touchdown point. It will use a ranging laser to measure its
approach range and speed, and half an hour before contact will deploy an
optical sensor into the soil so that its camera system can sense any
horizontal drift rates. The first sensor, about the size of a softball,
will carry almost a million names of people who supported the project.

The probe will contact the surface with a large "collection horn," and
then it almost immediately will fire a bullet into the dirt. Some of the
material that scatters from the impact will make its way into a
collection chamber, which will then be sealed. This process can occur up
to three times at different locations.

Hayabusa will also deploy a small hopper robot named Minerva. This
solar-powered mini-spacecraft will relay images from its three cameras
to Hayabusa whenever the two vehicles are in direct line-of-sight contact.

Assuming the craft's power system and four ion engines continue to
function, the craft will return to Earth in July 2007. A special capsule
will hit the atmosphere at 29,000 mph (13 kilometers per second), about
the same speed as returning Apollo spacecraft, and undergo forces of
about 25 G's before touching down in central Australia.

The material will be brought to a new national laboratory in Japan.
There it will be analyzed, and some of it will be shared with foreign
investigators.

James Oberg, space analyst for NBC News, spent 22 years at the Johnson
Space Center as a Mission Control operator and an orbital designer.
Received on Tue 07 Jun 2005 04:45:53 PM PDT