Long-term survival of surface water ice on comet 67P

Oklay, N.; Mottola, S.; Vincent, J.-B.; Pajola, M.; Fornasier, S.; Hviid, S. F.; Kappel, D.; Kührt, E.; Keller, H. U.; Barucci, M. A.; Feller, C.; Preusker, F.; Scholten, F.; Hall, I.; Sierks, Holger; Barbieri, C.; Lamy, P. L.; Rodrigo, R.; Koschny, D.; Rickman, H.; A’Hearn, M. F.; Bertaux, J.-L.; Bertini, I.; Bodewits, D.; Cremonese, G.; Deppo, V. Da; Davidsson, B. J. R.; Debei, S.; Cecco, M. De; Deller, J.; Deshapriya, J. D. P.; Fulle, M.; Gicquel, A.; Groussin, O.; Gutiérrez, P. J.; Güttler, Carsten; Hasselmann, P. H.; Hofmann, M.; Ip, W.-H.; Jorda, L.; Knollenberg, J.; Kovacs, G.; Kramm, J.-R.; Küppers, M.; Lara, L. M.; Lazzarin, M.; Lin, Z.-Y.; Moreno, J. J. Lopez; Lucchetti, A.; Marzari, F.; Masoumzadeh, N.; Naletto, G.; Pommerol, A.; Shi, X.; Thomas, N.; Tubiana, C.

doi:10.1093/mnras/stx2298

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Long-term survival of surface water ice on comet 67P

Oklay, N., Mottola, S., Vincent, J.-B., Pajola, M., Fornasier, S., Hviid, S. F., et al. (2017). Long-term survival of surface water ice on comet 67P. Monthly Notices of the Royal Astronomical Society, 469(Suppl. 2), S582-S597. doi:10.1093/mnras/stx2298.

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Item Permalink: https://hdl.handle.net/11858/00-001M-0000-002E-97B6-D Version Permalink: https://hdl.handle.net/21.11116/0000-0007-2180-2

Genre: Journal Article

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Oklay, N., Author
Mottola, S., Author
Vincent, J.-B., Author
Pajola, M., Author
Fornasier, S., Author
Hviid, S. F., Author
Kappel, D., Author
Kührt, E., Author
Keller, H. U., Author
Barucci, M. A., Author
Feller, C., Author
Preusker, F., Author
Scholten, F., Author
Hall, I., Author
Sierks, Holger¹, Author
Barbieri, C., Author
Lamy, P. L., Author
Rodrigo, R., Author
Koschny, D., Author
Rickman, H., Author
A’Hearn, M. F., AuthorBertaux, J.-L., AuthorBertini, I., AuthorBodewits, D., AuthorCremonese, G., AuthorDeppo, V. Da, AuthorDavidsson, B. J. R., AuthorDebei, S., AuthorCecco, M. De, AuthorDeller, J., AuthorDeshapriya, J. D. P., AuthorFulle, M., AuthorGicquel, A., AuthorGroussin, O., AuthorGutiérrez, P. J., AuthorGüttler, Carsten¹, Author Hasselmann, P. H., AuthorHofmann, M., AuthorIp, W.-H., AuthorJorda, L., AuthorKnollenberg, J., AuthorKovacs, G., AuthorKramm, J.-R., AuthorKüppers, M., AuthorLara, L. M., AuthorLazzarin, M., AuthorLin, Z.-Y., AuthorMoreno, J. J. Lopez, AuthorLucchetti, A., AuthorMarzari, F., AuthorMasoumzadeh, N., AuthorNaletto, G., AuthorPommerol, A., AuthorShi, X., AuthorThomas, N., AuthorTubiana, C., Author more..

Affiliations:
1Department Planets and Comets, Max Planck Institute for Solar System Research, Max Planck Society, ou_1832288

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MPIS_GROUPS: Planets and Comets

MPIS_PROJECTS: ROSETTA: OSIRIS

Abstract: Numerous water-ice-rich deposits surviving more than several months on comet 67P/Churyumov-Gerasimenko were observed during the Rosetta mission. We announce the first-time detection of water-ice features surviving up to 2 yr since their first observation via OSIRIS (Optical, Spectroscopic, and Infrared Remote Imaging System) NAC (narrow angle camera). Their existence on the nucleus of comet 67P at the arrival of the Rosetta spacecraft suggests that they were exposed to the surface during the comet’s previous orbit. We investigated the temporal variation of large water-ice patches to understand the long-term sustainability of water ice on cometary nuclei on time-scales of months and years. Large clusters are stable over typical periods of 0.5 yr and reduce their size significantly around the comet’s perihelion passage, while small exposures disappear. We characterized the temporal variation of their multispectral signatures. In large clusters, dust jets were detected, whereas in large isolated ones no associated activity was detected. Our thermal analysis shows that the long-term sustainability of water-ice-rich features can be explained by the scarce energy input available at their locations over the first half year. However, the situation reverses for the period lasting several months around perihelion passage. Our two end-member mixing analysis estimates a pure water-ice equivalent thickness up to 15 cm within one isolated patch, and up to 2 m for the one still observable through the end of the mission. Our spectral modelling estimates up to 48 per cent water-ice content for one of the large isolated feature, and up to 25 per cent water ice on the large boulders located within clusters.

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Language(s): eng - English

Dates: Created: 2017-12-21Date issued: 2017

Publication Status: Issued

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Rev. Type: Peer

Identifiers: DOI: 10.1093/mnras/stx2298

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Title: Monthly Notices of the Royal Astronomical Society

Other : Mon. Not. R. Astron. Soc.

Source Genre: Journal

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Publ. Info: Oxford : Oxford University Press

Pages: - Volume / Issue: 469 (Suppl. 2) Sequence Number: - Start / End Page: S582 - S597 Identifier: ISSN: 1365-8711
CoNE: https://pure.mpg.de/cone/journals/resource/1000000000024150