Rosetta flyby of Asteroid Lutetia |
Rosetta flyby of Asteroid Lutetia |
Dec 26 2009, 07:35 PM
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#1
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Senior Member Group: Members Posts: 1729 Joined: 3-August 06 From: 43° 35' 53" N 1° 26' 35" E Member No.: 1004 |
time to start a thread on one of the most interesting UMSF events of 2010...
Published thu on arXiv Ultraviolet and visible photometry of asteroid (21) Lutetia using the Hubble Space Telescope |
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Dec 28 2009, 01:47 AM
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#2
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Junior Member Group: Members Posts: 43 Joined: 31-May 05 From: Bloomington, Minnesota Member No.: 397 |
Lutetia will be the largest asteroid visited by a spacecraft, at least until 2011. The current record is held by Mathilde, but Lutetia's twice as big. It'll be the first asteroid of spectral class M to be visited, although it doesn't appear to be metallic... it should be a fun one.
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Dec 28 2009, 09:48 AM
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#3
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Senior Member Group: Members Posts: 1729 Joined: 3-August 06 From: 43° 35' 53" N 1° 26' 35" E Member No.: 1004 |
Actually the class of Lutetia is disputed, and it now seems more likely that it resembles some types of carbonaceous meteorites
these are some papers summarizing the results in support of the Rosetta flyby: Asteroids 2867 Steins and 21 Lutetia: surface composition from far infrared observations with the Spitzer space telescope Surface properties of Rosetta's targets (21) Lutetia and (2867) Steins from ESO observations New visible spectra and mineralogical assessment of (21) Lutetia, a target of the Rosetta mission |
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Dec 29 2009, 10:05 AM
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#4
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Senior Member Group: Members Posts: 1729 Joined: 3-August 06 From: 43° 35' 53" N 1° 26' 35" E Member No.: 1004 |
A quick recap of facts about Lutetia from "Robotic Exploration of the Solar System - Part 3":
QUOTE Almost 100 km in size, Lutetia was discovered on 15 November 1852 by Hermann M.S. Goldschmidt in Paris and dedicated to the town itself, which was known to the Romans as Lutetia Parisiorum (Lutetia of the Parisii tribe). QUOTE On penetrating the asteroid belt for the second time, the vehicle will pass Lutetia on 10 July 2010 at a range of about 3,055 km, traveling at a relative speed of 15 km/s. The data from the IRAS infrared astronomy satellite enabled the average diameter of this object to be roughly estimated during the 1980s at 95.5 km, but a number of light curves obtained since, most recently by the Hubble Space Telescope, have enabled astronomers to determine that it is asymmetric and about 132 x 101 x 93 km across, and to rotate in a little over 8 hours. Observations at a range of ‘look angles’ even revealed variations which hinted at the presence of one or more large craters in the northern hemisphere. Lutetia is therefore one of the best-characterized asteroids to receive a spacecraft inspection. However, despite a large number of spectroscopic studies, its taxonomic class was debated. For a long time it was listed as an M-class object that spectrally resembled some iron-rich meteorites. As yet, no such body has been visited. But this classification was not confirmed by infrared observations by the European Southern Observatory, a telescope in Hawaii and the Spitzer Space Telescope, nor by ultraviolet observations by the Hubble Space Telescope. Hence Lutetia is now regarded as an anomalous C-class object, reflecting more light than other members of the class, possibly implying that its surface is ‘unweathered’. In fact, Lutetia appears similar to some metal-rich carbonaceous chondrite meteorites. Rosetta made observations of Lutetia in January 2007, just before the Mars flyby, in order to assist in characterizing its light curve, rotation period and spin axis. |
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Mar 10 2010, 06:12 AM
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#5
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Senior Member Group: Members Posts: 1729 Joined: 3-August 06 From: 43° 35' 53" N 1° 26' 35" E Member No.: 1004 |
Two papers about Lutetia on arXiv today:
Inhomogeneities on the surface of 21 Lutetia: the asteroid target of the Rosetta mission Puzzling asteroid 21 Lutetia: our knowledge prior to the Rosetta fly-by |
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Mar 12 2010, 05:46 AM
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#6
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Senior Member Group: Members Posts: 1598 Joined: 14-October 05 From: Vermont Member No.: 530 |
I just saw a reference to papers by Busarev et al, that suggest Lutetia could be a binary. That would be neat. But alas, perhaps the concavity is more likely.
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Apr 17 2010, 10:03 AM
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#7
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Senior Member Group: Members Posts: 1729 Joined: 3-August 06 From: 43° 35' 53" N 1° 26' 35" E Member No.: 1004 |
nhomogeneities on the surface of 21 Lutetia, the asteroid target of the Rosetta mission is now published (and free to access!) in Astronomy & Astrophysics
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May 1 2010, 08:38 AM
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#8
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Senior Member Group: Members Posts: 1729 Joined: 3-August 06 From: 43° 35' 53" N 1° 26' 35" E Member No.: 1004 |
This is interesting: the Ptolemy mass spectrometer on the Rosetta orbiter will attempt to detect a faint exosphere around Lutetia
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May 1 2010, 08:44 AM
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#9
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Senior Member Group: Members Posts: 2113 Joined: 13-February 10 From: Ontario Member No.: 5221 |
It would have to be faint indeed. If confirmed, that would be the smallest known body with an atmosphere, correct?
I can't think of anything off the top of my head smaller then Enceladus that has one.... |
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May 1 2010, 09:06 AM
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#10
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Merciless Robot Group: Admin Posts: 8789 Joined: 8-December 05 From: Los Angeles Member No.: 602 |
"Exosphere" in this context seems like a pretty broad application of the term, though. Any solid body is going to emit a certain amount of gas in a vacuum, however exceedingly small that might be.
It's a smart & interesting experiment nevertheless. There appears to be a continuum of possible volatile content levels for members of the Belt's general asteroid population as well as an increasing number of objects that seem to be intermediate between the traditional categories of "comet" & "asteroid". Measuring the emissions of Luetia will provide some very valuable baseline data that directly pertains to all that. -------------------- A few will take this knowledge and use this power of a dream realized as a force for change, an impetus for further discovery to make less ancient dreams real.
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May 1 2010, 09:38 AM
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#11
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Senior Member Group: Members Posts: 2113 Joined: 13-February 10 From: Ontario Member No.: 5221 |
I think a good rule of thumb would be: it's an atmosphere if the body it surrounds is more or less spherical. That's a good a reference point as any right? Lutetia is excluded, but Ceres and maybe Vesta wouldn't be.
I doubt Hyperion or Proteus will break that rule anytime soon... |
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May 1 2010, 06:03 PM
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#12
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Senior Member Group: Members Posts: 1281 Joined: 18-December 04 From: San Diego, CA Member No.: 124 |
This discussion seems to becoming perilously evocative of another debate. I hope we don't have to create a new class of "dwarf atmospheres"
-------------------- Lyford Rome
"Zis is not nuts, zis is super-nuts!" Mathematician Richard Courant on viewing an Orion test |
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May 1 2010, 07:36 PM
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#13
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Merciless Robot Group: Admin Posts: 8789 Joined: 8-December 05 From: Los Angeles Member No.: 602 |
I think a good rule of thumb would be: it's an atmosphere if the body it surrounds is more or less spherical. Somebody please correct me if I'm wrong, but wouldn't a gravitationally-bound gaseous envelope (yep, intentionally avoiding the "A" word, here) be spherically distributed around a body's center of mass regardless of its gross shape? In fact, wouldn't it follow the contours of its Hill sphere? There might be pronounced local variations if there were very significant asymmetries in a body's internal mass distribution, but they'd have to be really big mascons, almost certainly much, much larger than any you'd expect to find on an asteroid. -------------------- A few will take this knowledge and use this power of a dream realized as a force for change, an impetus for further discovery to make less ancient dreams real.
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May 1 2010, 10:47 PM
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#14
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Senior Member Group: Members Posts: 1453 Joined: 26-July 08 Member No.: 4270 |
I think you're right, nprev. We don't see the atmospheric pressure at the top of Mt Everest being any higher than at any other equal altitude on Earth (though this may be a bad example due to the high mass of the planet).
Also, just to throw this in, Mercury has a non-spherical exosphere due to stellar wind effects. -------------------- -- Hungry4info (Sirius_Alpha)
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May 2 2010, 10:32 AM
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#15
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Newbie Group: Members Posts: 16 Joined: 30-March 08 Member No.: 4078 |
I think you're right, nprev. We don't see the atmospheric pressure at the top of Mt Everest being any higher than at any other equal altitude on Earth (though this may be a bad example due to the high mass of the planet). The air pressure tends to be substantially lower at the poles, even at the same altitude. For example, the summit of Denali (at about 6.2 km) has an air pressure equivalent to that at 6.9km altitude in the Himalayas (say Everest). |
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