The Philae lander reveals low-strength primitive ice inside cometary boulders

The Philae lander reveals low-strength primitive ice inside cometary boulders

On 12 November 2014, the Philae lander descended towards comet 67P/Churyumov-Gerasimenko, bounced twice off the surface, then arrived under an overhanging cliff in the Abydos region. The landing process provided insights into the properties of a cometary nucleus . Here we report an investigation of...

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Bibliographic Details
Published in:Nature (London) 2020-10, Vol.586 (7831), p.697-701
Main Authors: O'Rourke, Laurence, Heinisch, Philip, Blum, Jürgen, Fornasier, Sonia, Filacchione, Gianrico, Van Hoang, Hong, Ciarniello, Mauro, Raponi, Andrea, Gundlach, Bastian, Blasco, Rafael Andrés, Grieger, Björn, Glassmeier, Karl-Heinz, Küppers, Michael, Rotundi, Alessandra, Groussin, Olivier, Bockelée-Morvan, Dominique, Auster, Hans-Ulrich, Oklay, Nilda, Paar, Gerhard, Perucha, Maria Del Pilar Caballo, Kovacs, Gabor, Jorda, Laurent, Vincent, Jean-Baptiste, Capaccioni, Fabrizio, Biver, Nicolas, Parker, Joel Wm, Tubiana, Cecilia, Sierks, Holger
Format: Article
Language:eng
Subjects:
Analysis
Astrophysics
Boulders
Comets
Composition
Compressive strength
Discovery and exploration
Dust
Earth and Planetary Astrophysics
Ice
In situ measurement
Light snowfall
Observations
Porosity
Properties
Rosetta mission
Sciences of the Universe
Sensors
Touchdown
Water ice
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Summary:On 12 November 2014, the Philae lander descended towards comet 67P/Churyumov-Gerasimenko, bounced twice off the surface, then arrived under an overhanging cliff in the Abydos region. The landing process provided insights into the properties of a cometary nucleus . Here we report an investigation of the previously undiscovered site of the second touchdown, where Philae spent almost two minutes of its cross-comet journey, producing four distinct surface contacts on two adjoining cometary boulders. It exposed primitive water ice-that is, water ice from the time of the comet's formation 4.5 billion years ago-in their interiors while travelling through a crevice between the boulders. Our multi-instrument observations made 19 months later found that this water ice, mixed with ubiquitous dark organic-rich material, has a local dust/ice mass ratio of [Formula: see text], matching values previously observed in freshly exposed water ice from outbursts and water ice in shadow . At the end of the crevice, Philae made a 0.25-metre-deep impression in the boulder ice, providing in situ measurements confirming that primitive ice has a very low compressive strength (less than 12 pascals, softer than freshly fallen light snow) and allowing a key estimation to be made of the porosity (75 ± 7 per cent) of the boulders' icy interiors. Our results provide constraints for cometary landers seeking access to a volatile-rich ice sample.
ISSN:0028-0836
1476-4687