[UPDATED] New Rosetta images show comet's craggy shape
A new NavCam view of Rosetta's target comet, released this morning, gives us comet fans a new perspective on its craggy shape. UPDATE: And just an hour after I posted this NavCam image, they released an OSIRIS image, too. In both images, a shift in position has brought shadows into view from Rosetta, outlining scarps and ridges on 67P/Churyumov-Gerasimenko. Check it out:
ESA / Rosetta / NavCam / Emily Lakdawalla
NavCam view of comet Churyumov-Gerasimenko on August 1, 2014
Rosetta took this NavCam photo of the comet on August 1, 2014 from a distance of about 1026 kilometers. The photo has been cleaned of noise and enlarged by a factor of 3 from its original resolution.
Here's the newly released OSIRIS image, which seems to have come out this weekend in response to a leak:
ESA / Rosetta / MPS for OSIRIS Team MPS / UPD / LAM / IAA / SSO / INTA / UPM / DASP / IDA / Emily Lakdawalla
OSIRIS view of comet Churyumov-Gerasimenko on August 1, 2014
This image was acquired August a at 02:48 UTC by the OSIRIS camera on Rosetta from a distance of approximately 1000 km. It has been enlarged by an unknown amount from the original resolution. A prominent dark spot visible on the original image is an artifact on the CCD and has been painted out of this version of the image.
Even though the resolution of the NavCam image was no better that the previous most recent OSIRIS image, it's easier to appreciate the shape of the comet from this NavCam view, because of those shadows. Compare these to the July 29 view from OSIRIS:
ESA / Rosetta / MPS for OSIRIS Team MPS / UPD / LAM / IAA / SSO / INTA / UPM / DASP / IDA
OSIRIS view of comet Churyumov-Gerasimenko on July 29, 2014
Rosetta obtained this view of the comet on July 29, 2014 from only 1950 kilometers away. The pixel scale is about 37 meters. This image has been enlarged by a factor of 3 from the original resolution.
Those crags and scarps are reminding me (and other viewers) of the interesting topographic features that Stardust saw on Wild 2:
NASA / JPL
Stardust's best images of Wild 2
Stardust snapped these six photos of Wild 2 during its closest approach to the small comet on January 2, 2004. It flew within 236 kilometers (147 miles) of Wild 2 at a speed of 6.1 kilometers per second (14,000 miles per hour). These images were taken 44, 24, and 4 seconds before and 16, 36, and 56 seconds after closest approach.
With about 500 km separating Rosetta from comet 67P, it is still necessary to reduce the spacecraft’s speed with respect to the comet by some 3.5 m/s.
The two remaining burns in the ten-burn series of orbit correction manoeuvres (OCMs) that are achieving this are dubbed CATP (Close Approach Trajectory – pre-Insertion) and CATI (Close Approach Trajectory – Insertion), and are planned for 3 and 6 August, respectively.
Here are the details for Sunday, 3 August.
The burn is set to begin at 11:00 CEST (09:00 UTC), will run for about 13 mins:12 secs and will bleed off some 3.2 m/s of speed.
“It will be initiated, as all of our OCMs have been, automatically by a stack of commands; these have already been pre-loaded on board Rosetta,” says Spacecraft Operations Manager Sylvain Lodiot.
“We also need to bend the spacecraft’s trajectory towards the comet, going from today’s 200-km miss distance to 70 km, and reduce the relative velocity to about 1 m/s.”
The final insertion burn – CATI – will be conducted on 6 Aug, after which Rosetta is set to achieve a speed substantially equal to the comet at a stand-off distance of about 100 km.
‘Orbit insertion’ is a bit of a misnomer, as the spacecraft will still be too far from the comet to be captured by its gravity into a bound keplerian orbit.
Orbit insertion means that Rosetta will in fact begin following a series of triangular arcs, each about 100-km long, and it will conduct a small thruster burn at each apex to swing onto the next arc and stay near the comet. The height of the arcs above the surface will be steadily lowered, until 67P/C-G’s gravity does capture the spacecraft (see How Rosetta Arrives at a Comet for details).
“All systems on the spacecraft are performing well and the entire team is looking forward to a smooth arrival,” says Sylvain.
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