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3. Bilobate comet morphology and internal structure controlled by shear deformation

Author

Matonti, C., Attree, N., Groussin, O., Jorda, L., Viseur, S., Hviid, S. F., Bouley, S., Nébouy, D., Auger, A.-T., Lamy, P. L., Sierks, H., Naletto, G., Rodrigo, R., Koschny, D., Davidsson, B., Barucci, M. A., Bertaux, J.-L., Bertini, I., Bodewits, D., Cremonese, G., Da Deppo, V., Debei, S., De Cecco, M., Deller, J., Fornasier, S., Fulle, M., Gutiérrez, P. J., Güttler, C., Ip, W.-H., Keller, H. U., Lara, L. M., La Forgia, F., Lazzarin, M., Lucchetti, A., López-Moreno, J. J., Marzari, F., Massironi, M., Mottola, S., Oklay, N., Pajola, M., Penasa, L., Preusker, F., Rickman, H., Scholten, F., Shi, X., Toth, I., Tubiana, C., and Vincent, J.-B.

Published
2019
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4. On the nucleus structure and activity of comet 67P/Churyumov-Gerasimenko

Author

Sierks, H., Barbieri, C., Lamy, P. L., Rodrigo, R., Koschny, D., Rickman, H., Keller, H. U., Agarwal, J., A'Hearn, M. F., Angrilli, F., Auger, A.-T., Barucci, M. A., Bertaux, J.-L., Bertini, I., Besse, S., Bodewits, D., Capanna, C., Cremonese, G., Da Deppo, V., Davidsson, B., Debei, S., De Cecco, M., Ferri, F., Fornasier, S., Fulle, M., Gaskell, R., Giacomini, L., Groussin, O., Gutierrez-Marques, P., Gutiérrez, P. J., Güttler, C., Hoekzema, N., Hviid, S. F., Ip, W.-H., Jorda, L., Knollenberg, J., Kovacs, G., Kramm, J.-R., Kührt, E., Küppers, M., La Forgia, F., Lara, L. M., Lazzarin, M., Leyrat, C., Moreno, J. J. Lopez, Magrin, S., Marchi, S., Marzari, F., Massironi, M., Michalik, H., Moissl, R., Mottola, S., Naletto, G., Oklay, N., Pajola, M., Pertile, M., Preusker, F., Sabau, L., Scholten, F., Snodgrass, C., Thomas, N., Tubiana, C., Vincent, J.-B., Wenzel, K.-P., Zaccariotto, M., and Pätzold, M.

Published
2015

5. The morphological diversity of comet 67P/Churyumov-Gerasimenko

Author

Thomas, N., Sierks, H., Barbieri, C., Lamy, P. L., Rodrigo, R., Rickman, H., Koschny, D., Keller, H. U., Agarwal, J., A'Hearn, M. F., Angrilli, F., Auger, A.-T., Barucci, M. A., Bertaux, J.-L., Bertini, I., Besse, S., Bodewits, D., Cremonese, G., Da Deppo, V., Davidsson, B., De Cecco, M., Debei, S., El-Maarry, M. R., Ferri, F., Fornasier, S., Fulle, M., Giacomini, L., Groussin, O., Gutierrez, P. J., Güttler, C., Hviid, S. F., Ip, W.-H., Jorda, L., Knollenberg, J., Kramm, J.-R., Kührt, E., Küppers, M., La Forgia, F., Lara, L. M., Lazzarin, M., Moreno, J. J. Lopez, Magrin, S., Marchi, S., Marzari, F., Massironi, M., Michalik, H., Moissl, R., Mottola, S., Naletto, G., Oklay, N., Pajola, M., Pommerol, A., Preusker, F., Sabau, L., Scholten, F., Snodgrass, C., Tubiana, C., Vincent, J.-B., and Wenzel, K.-P.

Published
2015

7. CUBES: a UV spectrograph for the future

Author

Covino, S., Cristiani, S., Alcala', J. M., Alencar, S. H. P., Balashev, S. A., Barbuy, B., Bastian, N., Battino, U., Bissell, L., Bristow, P., Calcines, A., Calderone, G., Cambianica, P., Carini, R., Carter, B., Cassisi, S., Castilho, B. V., Cescutti, G., Christlieb, N., Cirami, R., Conzelmann, R., Coretti, I., Cooke, R., Cremonese, G., Cunha, K., Cupani, G., da Silva, A. R., D'Auria, D., De Caprio, V., De Cia, A., Dekker, H., D'Elia, V., De Silva, G., Diaz, M., Di Marcantonio, P., D'Odorico, V., Ernandes, H., Evans, C., Fitzsimmons, A., Franchini, M., Gaensicke, B., Genoni, M., Giribaldi, R. E., Gneiding, C., Grazian, A., Hansen, C. J., Hopgood, J., Kosmalski, J., La Forgia, F., La Penna, P., Landoni, M., Lazzarin, M., Lunney, D., Maciel, W., Marcolino, W., Marconi, M., Migliorini, A., Miller, C., Modigliani, A, Noterdaeme, P., Oggioni, L., Opitom, C., Pariani, G., Pilecki, B., Piranomonte, S., Quirrenbach, A., Redaelli, E.M.A., Pereira, C. B., Randich, S., Rossi, S., Sanchez-Janssen, R., Schoeller, M., Seifert, W., Smiljanic, R., Snodgrass, C., Squalli, O., Stilz, I., Stuermer, J., Trost, A., Vanzella, E., Ventura, P., Verducci, O., Waring, C., Watson, S., Wells, M., Wright, D., Zafar, T., Zanutta, A., and Zins, G.

Subjects
FOS: Physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM)
Abstract

In spite of the advent of extremely large telescopes in the UV/optical/NIR range, the current generation of 8-10m facilities is likely to remain competitive at ground-UV wavelengths for the foreseeable future. The Cassegrain U-Band Efficient Spectrograph (CUBES) has been designed to provide high-efficiency (>40%) observations in the near UV (305-400 nm requirement, 300-420 nm goal) at a spectral resolving power of R>20,000, although a lower-resolution, sky-limited mode of R ~ 7,000 is also planned. CUBES will offer new possibilities in many fields of astrophysics, providing access to key lines of stellar spectra: a tremendous diversity of iron-peak and heavy elements, lighter elements (in particular Beryllium) and light-element molecules (CO, CN, OH), as well as Balmer lines and the Balmer jump (particularly important for young stellar objects). The UV range is also critical in extragalactic studies: the circumgalactic medium of distant galaxies, the contribution of different types of sources to the cosmic UV background, the measurement of H2 and primordial Deuterium in a regime of relatively transparent intergalactic medium, and follow-up of explosive transients. The CUBES project completed a Phase A conceptual design in June 2021 and has now entered the Phase B dedicated to detailed design and construction. First science operations are planned for 2028. In this paper, we briefly describe the CUBES project development and goals, the main science cases, the instrument design and the project organization and management., Proceedings for the HACK100 conference, Trieste, June 2022. arXiv admin note: substantial text overlap with arXiv:2208.01672

Published
2022

8. Comets beyond 4 au: How pristine are Oort nuclei?

Author

FULLE, Marco, Lazzarin, M., La Forgia, F., Zakharov, V. V., Bertini, I., Epifani, E. Mazzotta, Ammannito, E., BUZZONI, Alberto, CAPRIA, MARIA TERESA, CARBOGNANI, Albino, Da Deppo, V., Corte, V. Della, Fiscale, S., Frattin, E., INNO, LAURA, MIGLIORINI, Alessandra, PERNECHELE, Claudio, Rotundi, Alessandra, Sindoni, G., Tubiana, C., Milani, G., Aletti, A., Bacci, P., Baj, G., Bellini, F., Bryssinck, E., Di Grazia, M., Facchini, M., Feraco, M., Guido, E., Ligustri, R., Kugel, F., Maestripieri, M., Tirelli, D., Valvasori, A., Snodgrass, C., and Jones, G. H.

Subjects
Space and Planetary Science, space vehicles, Oort Cloud, Astronomy and Astrophysics, protoplanetary discs, general [comets]
Abstract

The ESA mission Comet Interceptor will target an Oort or interstellar comet during its first approach to the Sun. Meanwhile, the Vera Rubin LSST Survey will observe hundreds of active comets per month beyond 4 au from the Sun, where water vapor pressure is expected to be too low to eject dust. We discuss observations of dust tails at heliocentric distances larger than 4 au in order to retrieve the physical parameters driving cometary activity beyond Jupiter by means of a probabilistic tail model, which is consistent with the activity model defining the gas coma parameters due to the sublimation of carbon monoxide, molecular oxygen, methane, ethane and carbon dioxide since the activity onset at 85 au from the Sun. We find that: (i) All the observed dust tails are consistent with the adopted activity model; (ii) The tail fits depend on three free parameters only, all correlated to the nucleus size; (iii) Tail fits are always improved by anisotropic dust ejection, suggesting activity of Oort nuclei dominated by seasons; (iv) Inbound seasons suggest cometary activity before the ejection of protocomets into the Oort cloud, as predicted by the activity model; (v) Oort nuclei larger than 1 km may be characterized by a fallout up to ≈100 m thick deposited during ≈60 yr inbound; (vi) On the other side, Oort nuclei smaller than 1 km may appear more pristine than Jupiter Family Comets when observed at 1 au from the Sun.

Published
2022
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9. Rotational Resolved Spectroscopy of the Didymos System, Target of the DART/LICIACube Mission

Author

Ieva, S., Mazzotta Epifani, E., Dotto, E., Perna, D., Brucato, J. R., Poggiali, G., Pajola, M., Lazzarin, M., La Forgia, F., Rossi, A., Palumbo, P., Della Corte, V., Migliorini, A., Zannoni, M., Snodgrass, C., Pravec, P., Granvik, M., Lucchetti, A., Ivanovski, S., Meneghin, A., Amoroso, M., Pirrotta, S., Bertini, I., Capannolo, A., Cotugno, B., Cremonese, G., Di Tana, V., Gai, I., Impresario, G., Lavagna, M., Miglioretti, F., Modenini, D., Simioni, E., Simonetti, S., Tortora, P., Zanotti, G., Zinzi, A., Thomas, C., and Rivkin, A. S.

Published
2021

11. Rotational Properties of Binary Asteroid System (65803) Didymos, Target of the DART/LICIACube and HERA Missions

Author

Ieva, S., Mazzotta Epifani, E., Dotto, E., Perna, D., Brucato, J. R. search by orcid, Poggiali, G., Pajola, M., Lazzarin, M., La Forgia, F., Rossi, A., Palumbo, P., Della Corte, V., Migliorini, A., Zannoni, M., Snodgrass, C., Pravec, P., Granvik, M., Lucchetti, A. search by orcid, Ivanovski, S., Meneghin, A. Amoroso, M., Pirrotta, S., Bertini, I., Capannolo, A., Cotugno, B., Cremonese, G., Di Tana, V., Gai, I., Impresario, G., Lavagna, M., Miglioretti, F., Modenini, D., Simioni, E., Simonetti, S., Tortora, P., Zanotti, G., Zinzi, A., Thomas, C., and Rivkin, A. S.

Subjects
Near Earth Asteroids, DART/LICIACube mission, Spectroscopy
Abstract

Near-Earth objects (NEOs), due to their proximity to our planet, represent one of the most accessible bodies in the whole Solar System. Their investigation can provide answers to several pressing questions in modern planetology (regarding, e.g., planetary formation, delivery of water and organics to the early Earth, and emergence of life). Moreover, water and valued minerals stored inside NEOs have already intrigued governments and private companies, allured by the idea of exploiting resources through asteroid mining. However, NEOs can represent a risk for future human civilization, since some of them can be potential impactors. To this purpose, the NASA Double Asteroid Redirection Test (DART) has been approved to be the first demonstration of an hazard mitigation of an asteroid by using a kinetic impactor.

Published
2021

13. Spectroscopic Characterization of the Didymos System, Target of the Kinetic Impactor Dart/liciacube Mission

Author

Ieva, S., Mazzotta Epifani, E., Dotto, E., Perna, D., Brucato, J. R., Poggiali, G., Pajola, M., Lazzarin, M., La Forgia, F., Rossi, A., Palumbo, P., Della Corte, V., Migliorini, A., Zannoni, M., Snodgrass, C., Pravec, P., Granvik, M., Lucchetti, A., Ivanovski, S., Meneghin, A., Amoroso, M., Pirrotta, S., Bertini, I., Capannolo, A., Cotugno, B., Cremonese, G., Di Tana, V., Gai, I., Impresario, G., Lavagna, M., Miglioretti, F., Modenini, D., Simioni, E., Simonetti, S., Tortora, P., Zanotti, G., Zinzi, A., Thomas, C., and Rivkin, A. S.

Published
2021

14. Towards a high-accuracy geological model of the 67P comet

Author

Franceschi, M., Penasa, L., Massironi, M., Ferrari, S., Naletto, G., Bertini, I., Cremonese, G., Ferri, F., Frattin, F., La Forgia, F., Lazzarin, M., Lucchetti, A., Marzari, F., Pajola, M., Simioni, E., Franceschi, M., Penasa, L., Massironi, M., Ferrari, S., Naletto, G., Bertini, I., Cremonese, G., Ferri, F., Frattin, F., La Forgia, F., Lazzarin, M., Lucchetti, A., Marzari, F., Pajola, M., and Simioni, E.

Abstract

It was recently shown that the layered structure of each of the two lobes of comet 67P/Churyumov-Gerasimenko (67P) can be modelled as a set of concentric ellipsoidal shells. The ellipsoidal model is able to correctly predict the major layering-related features on the comet surface; however, the ellipsoidal model is a first order approximation of a more complex internal structure. A better description of this latter requires an improved model. In this contribution preliminary results in building a refined three-dimensional model of the comet are presented with focus on the Small Lobe. The model is realized using a 3D geo-modeling technique that embeds linear and planar features (layer joints and terraces) as well as other geometric characteristics (e.g. vectorial fields) as constraints, influencing the reconstruction of the comet layered structure. Results allow accounting for features that are not predicted by the ellipsoidal model, therefore such refined 3D model is a step towards a model of the comet nucleus that may clues useful in unraveling the complex history that shaped it to its present configuration.

Published
2017

15. Observational constraints to the dynamics of dust particles in the coma of comet 67P/Churyumov–Gerasimenko.

Author

Frattin, E, Bertini, I, Ivanovski, S L, Marzari, F, Fulle, M, Zakharov, V V, Moreno, F, Naletto, G, Lazzarin, M, Cambianica, P, Cremonese, G, Ferrari, S, Ferri, F, Güttler, C, La Forgia, F, Lucchetti, A, Pajola, M, Penasa, L, Rotundi, A, and Sierks, H

Subjects
CHURYUMOV-Gerasimenko comet, PARTICLE dynamics, COMA, DUST, PARTICLE tracks (Nuclear physics)
Abstract

In this work, we aim to characterize the dust motion in the inner coma of comet 67P/Churyumov–Gerasimenko to provide constraints for theoretical 3D coma models. The OSIRIS camera on-board the Rosetta mission was able for the first time to acquire images of single dust particles from inside the cometary coma, very close to the nucleus. We analyse a large number of particles, performing a significant statistic of their behaviour during the post-perihelion period, when the spacecraft covered distances from the nucleus ranging between 80 and 400 km. We describe the particle trajectories, investigating their orientation and finding highly radial motion with respect to the nucleus. Then, from the particle brightness profiles, we derive a particle rotational frequency of ν < 3.6 Hz, revealing that they are slow rotators and do not undergo fragmentation. We use scattering models to compare the observed spectral radiance of the particles with the simulated ones in order to estimate their size, finding values that range from millimetres up to centimetres. The statistics performed in this paper provide useful parameters to constrain the cometary coma dynamical models. [ABSTRACT FROM AUTHOR]

Published
2021
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16. Characterization of V-type asteroids orbiting in the middle and outer main belt.

Author

Migliorini, Alessandra, De Sanctis, M C, Michtchenko, T A, Lazzaro, D, Barbieri, M, Mesa, D, Lazzarin, M, and La Forgia, F

Subjects
ASTEROID orbits, ASTEROIDS, ASTRONOMICAL surveys, SMALL solar system bodies, PYROXENE, SPECTROGRAPHS
Abstract

We present new spectral observations using ground-based telescopes of 23 putative V-type asteroids, selected according to colour surveys in the visible from the Moving Objects Catalogue of the Sloan Digital Sky Survey and near-infrared from the Moving Objects VISTA catalogue. 10 asteroids are orbiting in the middle main belt, while five in the outer part of the main asteroid belt. For the observed asteroids, we assign a taxonomical classification and confirm the basaltic nature for 16 of them. The high-quality spectra in the UV range, obtained with the X-Shooter spectrograph at ESO, allowed the identification of the Fe2+ forbidden transition of pyroxene for 10 asteroids. This band is centred at 506.5 nm, and it is diagnostic of the Ca-content in the pyroxene form. We determined a low Fe-content composition for asteroids (2452) Lyot, (5758) Brunini, (7675) Gorizia, (9197) Endo, (22308) 1990 UO4, (36118) 1999 RE135, (66905) 1999 VC160, and (189597) 2000 WG119, and a composition more rich in Fe for asteroids (75661) 2000 AB79 and (93620) 2000 UQ70. We also present a dynamical investigation of V-type asteroids in the middle and outer main belt. The principal finding of these simulations is that the middle and outer V-types are more likely to be associated with some families, which were considered as possibly originated from the break up of a partially or totally differentiated parent body by diverse studies. This reinforces the hypothesis that the identified V-type in the region were not originated from (4) Vesta and that the number of differentiated objects in the middle and outer main belt must have been much larger than previously assumed. [ABSTRACT FROM AUTHOR]

Published
2021
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18. SURFACE GEOLOGY OF 67P BY ROSETTA

Author

Massironi, M., Penasa, L., Ferrari, S., Simioni, E., La Forgia, F., Giacomini, L., Lee, J. C., Luchetti, A., Pajola, M., Naletto, G., Lazzarin, M, Cremonese, G, Bertini, I., Deppo, Da, Ferri, F., Marzari, F, Barbieri, C., and Sierks, H.

Published
2017

22. First analysis of the size-frequency distribution of boulders ge 7m on comet 67P

Author

PAJOLA, MAURIZIO, Vincent, J. B., Güttler, C., Lee, J. -C., Massironi, M., Bertini, I., SIMIONI, EMANUELE, Marzari, F., GIACOMINI, LIVIA, Barbieri, C., CREMONESE, Gabriele, Naletto, G., Pommerol, A., El Maarry, M. R., Besse, S., Küppers, M., La Forgia, F., Lazzarin, M., Thomas, N., Auger, A. T., Ip, W. -H., Lin, Z. -Y., Sierks, H., OSIRIS Team, A'Hearn, M. F., Barucci, M. A., Bertaux, J. -L., Da Deppo, V., Davidsson, B., De Cecco, M., Debei, S., Ferri, F., Fornasier, S., Fulle, M., Groussin, O., Gutierrez, P. J., Hviid, S. F., Jorda, L., Keller, H. U., Knollenberg, J., Koschny, D., Kramm, J. -R., Kürt, E., Lamy, P., Lara, L. M., Lopez Moreno, J. J., Magrin, S., Michalik, H., Moissl, R., Mottola, S., Oklay, N., Preusker, F., Rickman, H., Rodrigo, R., Scholten, F., and Tubiana, C.

Abstract

Images of the surface of comet 67P Churyumov-Gerasimenko taken by the OSIRIS camera on board the Rosetta spacecraft have been used to study the statistical distribution and morphological properties of both cluster and isolated roundish structures ('boulders') scattered all over the surface. We used NAC images taken on Aug 5-6, 2014, at a distance between 131.45 - 109.76 km, with a spatial resolution ranging from 2.44 - 2.03 m/px (Fig. 1). Such data cover a full rotation of 67P, providing the first ever full size frequency distribution coverage of boulders ≥ 7m visible on a cometary illuminated side. Boulders are ubiquitous on the head, neck, and body of 67P \citep{thomas15}. The initial count of 4,976 boulders was reduced to 3,546 for statistical purposes taking into consideration only those with a diameter larger than 7 m \citep{pajola15}.

Published
2016

27. Colors of active regions on comet 67P

Author

Oklay, N., Vincent, J. -B., Sierks, H., Besse, S., Fornasier, S., Barucci, M. A., Lara, L., Scholten, F., Preusker, F., Lazzarin, M., Pajola, M., and La Forgia, F.

Published
2015

28. Geomorphological mapping of the Comet 67P/Churyumov-Gerasimenko

Author

Giacomini, L., Massironi, M., Thomas, N., Pajola, M., Cremonese, G., La Forgia, F., Ferri, F., Lazzarin, M., Barbieri, C., Bettini, I., Magrin, S., Marzari, F., Naletto, G., Sierks, H., and Rosetta OSIRIS Team

Abstract

OSIRIS, the Scientific Imaging System for Rosetta mission \citep{keller07} has been acquiring images of the nucleus of the comet 67P/Churyumov-Gerasimenko since Aug 2014 with a resolution that allows a detailed analysis of its surface. Indeed, data reveal a complex surface morphology that is likely the expression of different processes affecting the cometary nucleus \citep{thomas15}. In order to characterize these different morphologies and better understand their distribution we performed a geomorphological mapping of the illuminated surface of 67P. For this purpose we used NAC images acquired on August 5-8 with a spatial resolution ranging from 1.5 and 2.4 m/pixel.

Published
2015

29. 67P/Churyumov-Gerasimenko: Activity between March and June 2014 as observed from Rosetta/OSIRIS

Author

Tubiana, C., Snodgrass, C., Bertini, I., Mottola, S., Vincent, J.-B., Lara, L., Fornasier, S., Knollenberg, J., Thomas, N., Fulle, M., Agarwal, J., Bodewits, Dennis, Ferri, F., Güttler, C., Gutierrez, P. J., La Forgia, F., Lowry, S., Magrin, S., Oklay, N., Pajola, M., Rodrigo, R., Sierks, H., A'Hearn, Michael F., Angrilli, F., Barbieri, C., Barucci, M. A., Bertaux, Jean-Loup, Cremonese, Gabriele, Da Deppo, V., Davidsson, B., De Cecco, M., Debei, S., Groussin, O., Hviid, S. F., Ip, W., Jorda, L., Keller, H. U., Koschny, D., Kramm, R., Kührt, Ekkehard, Küppers, M., Lazzarin, M., Lamy, P. L., Lopez Moreno, J. J., Marzari, F., Michalik, H., Naletto, G., Rickman, H., Sabau, L., Wenzel, K.-P., Max-Planck-Institut für Sonnensystemforschung (MPS), Max-Planck-Gesellschaft, School of Physical Sciences [Milton Keynes], Faculty of Science, Technology, Engineering and Mathematics [Milton Keynes], The Open University [Milton Keynes] (OU)-The Open University [Milton Keynes] (OU), Centro di Ateneo di Studi e Attività Spaziali 'Giuseppe Colombo' (CISAS), Universita degli Studi di Padova, DLR Institute of Planetary Research, German Aerospace Center (DLR), Instituto de Astrofísica de Andalucía (IAA), Consejo Superior de Investigaciones Científicas [Madrid] (CSIC), Laboratoire d'études spatiales et d'instrumentation en astrophysique (LESIA), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Physikalisches Institut [Bern], Universität Bern [Bern], INAF - Osservatorio Astronomico di Trieste (OAT), Istituto Nazionale di Astrofisica (INAF), Department of Astronomy [College Park], University of Maryland [College Park], University of Maryland System-University of Maryland System, Dipartimento di Fisica e Astronomia 'Galileo Galilei', Centre for Astrophysics and Planetary Science [Canterbury] (CAPS), University of Kent [Canterbury], International Space Science Institute [Bern] (ISSI), Centro de Astrobiologia [Madrid] (CAB), Instituto Nacional de Técnica Aeroespacial (INTA)-Consejo Superior de Investigaciones Científicas [Madrid] (CSIC), PLANETO - LATMOS, Laboratoire Atmosphères, Milieux, Observations Spatiales (LATMOS), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), INAF - Osservatorio Astronomico di Padova (OAPD), Department of Physics and Astronomy [Uppsala], Uppsala University, Università degli Studi di Trento (UNITN), Department of Industrial Engineering [Padova], Laboratoire d'Astrophysique de Marseille (LAM), Aix Marseille Université (AMU)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS), Institute of Space Science [Taiwan], National Central University [Taiwan] (NCU), Institut für Geophysik und Extraterrestrische Physik [Braunschweig] (IGEP), Technische Universität Braunschweig = Technical University of Braunschweig [Braunschweig], Research and Scientific Support Department, ESTEC (RSSD), European Space Research and Technology Centre (ESTEC), European Space Agency (ESA)-European Space Agency (ESA), European Space Astronomy Centre (ESAC), European Space Agency (ESA), Dipartimento di Fisica [Padova], Institut für Datentechnik und Kommunikationsnetze, Department of Information Engineering [Padova] (DEI), and Instituto Nacional de Técnica Aeroespacial (INTA)

Subjects
[SDU.ASTR.EP]Sciences of the Universe [physics]/Astrophysics [astro-ph]/Earth and Planetary Astrophysics [astro-ph.EP]
Abstract

International audience; 67P/Churyumov-Gerasimenko is the target comet of the ESA’s Rosetta mission. After commissioning at the end of March 2014, the Optical, Spectroscopic, and Infrared Remote Imaging System (OSIRIS) onboard Rosetta, started imaging the comet and its dust environment to investigate how they change and evolve while approaching the Sun.Methods. We focused our work on Narrow Angle Camera (NAC) orange images and Wide Angle Camera (WAC) red and visible-610 images acquired between 2014 March 23 and June 24 when the nucleus of 67P was unresolved and moving from approximately 4.3 AU to 3.8 AU inbound. During this period the 67P – Rosetta distance decreased from 5 million to 120 thousand km.Results. Through aperture photometry, we investigated how the comet brightness varies with heliocentric distance. 67P was likely already weakly active at the end of March 2014, with excess flux above that expected for the nucleus. The comet’s brightness was mostly constant during the three months of approach observations, apart from one outburst that occurred around April 30 and a second increase in flux after June 20. Coma was resolved in the profiles from mid-April. Analysis of the coma morphology suggests that most of the activity comes from a source towards the celestial north pole of the comet, but the outburst that occurred on April 30 released material in a different direction.

Published
2015
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30. Experimental phase function and degree of linear polarization of cometary dust analogues.

Author

Frattin, E, Muñoz, O, Moreno, F, Nava, J, Escobar-Cerezo, J, Gomez Martin, J C, Guirado, D, Cellino, A, Coll, P, Raulin, F, Bertini, I, Cremonese, G, Lazzarin, M, Naletto, G, and La Forgia, F

Subjects
OLIVINE, CHURYUMOV-Gerasimenko comet, LINEAR polarization, DUST
Abstract

We present experimental phase function and degree of linear polarization curves for seven samples of cometary dust analogues namely: ground pieces of Allende, DaG521, FRO95002, and FRO99040 meteorites, Mg-rich olivine and pyroxene, and a sample of organic tholins. The experimental curves have been obtained at the IAA Cosmic Dust Laboratory at a wavelength of 520 nm covering a phase angle range from 3° to 175°. We also provide values of the backscattering enhancement for our cometary analogue samples. The final goal of this work is to compare our experimental curves with observational data of comets and asteroids to better constrain the nature of cometary and asteroidal dust grains. All measured phase functions present the typical behaviour for |$\mu$| m-sized cosmic dust grains. Direct comparison with data provided by the OSIRIS/Rosetta camera for comet 67P/Churyumov–Gerasimenko reveals significant differences and supports the idea of a coma dominated by big chunks, larger than one micrometer. The polarization curves are qualitatively similar to ground-based observations of comets and asteroids. The position of the inversion polarization angle seems to be dependent on the composition of the grains. We find opposite dependence of the maximum of the polarization curve for grains sizes in the Rayleigh-resonance and geometric optics domains, respectively. [ABSTRACT FROM AUTHOR]

Published
2019
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31. The backscattering ratio of comet 67P/Churyumov–Gerasimenko dust coma as seen by OSIRIS onboard Rosetta.

Author

Bertini, I, La Forgia, F, Fulle, M, Tubiana, C, Güttler, C, Moreno, F, Agarwal, J, Munoz, O, Mottola, S, Ivanovsky, S, Pajola, M, Lucchetti, A, Petropoulou, V, Lazzarin, M, Rotundi, A, Bodewits, D, Frattin, E, Toth, I, Masoumzadeh, N, and Kovacs, G

Subjects
*BACKSCATTERING, *COSMIC dust, *REMOTE sensing, *STELLAR evolution, *ASTRONOMICAL observations
Abstract

Remote sensing observations of dust particles ejected from comets provide important hints on the intimate nature of the materials composing these primitive objects. The measurement of dust coma backscattering ratio, BSR, defined as the ratio of the reflectance at phase angle 0° and 30°, helps tuning theoretical models aimed at solving the inverse scattering problem deriving information on the nature of the ejected particles. The Rosetta /OSIRIS camera sampled the coma phase function of comet 67P, with four series acquired at low phase angles from 2015 January to 2016 May. We also added previously published data to our analysis to increase the temporal resolution of our findings. We measured a BSR in the range ∼ [1.7–3.6], broader than the range found in literature from ground-based observations of other comets. We found that during the post-perihelion phase, the BSR is systematically larger than the classical cometary dust values only for nucleocentric distances smaller than ∼100 km. We explain this trend in terms of a cloud of chunks orbiting the nucleus at distances <100 km ejected during perihelion and slowly collapsing on the nucleus over a few months because of the coma gas drag. This also implies that the threshold particle size for the dust phase function to become similar to the nucleus phase function is between 2.5 mm and 0.1 m, taking into account previous Rosetta findings. [ABSTRACT FROM AUTHOR]

Published
2019
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33. Phobos surface spectra mineralogical modeling

Author

Pajola, M., Lazzarin, M., Dalle Ore, C. M., Cruikshank, D. P., Roush, T. L., Pendleton, Y., Bertini, I., Magrin, S., Carli, C., La Forgia, F., and Barbieri, C.

Published
2014

38. The big lobe of 67P/Churyumov–Gerasimenko comet: morphological and spectrophotometric evidences of layering as from OSIRIS data.

Author

Ferrari, Sabrina, Penasa, L, La Forgia, F, Massironi, M, Naletto, G, Lazzarin, M, Fornasier, S, Hasselmann, P H, Lucchetti, A, Pajola, M, Ferri, F, Cambianica, P, Oklay, N, Tubiana, C, Sierks, H, Lamy, P L, Rodrigo, R, Koschny, D, Davidsson, B, and Barucci, M A

Subjects
CHURYUMOV-Gerasimenko comet, SPECTROPHOTOMETRY, WAVELENGTHS, INFRARED cameras, MULTISPECTRAL imaging
Abstract

Between 2014 and 2016, ESA’s Rosetta OSIRIS cameras acquired multiple-filters images of the layered nucleus of comet 67P/Churyumov–Gerasimenko, ranging from ultraviolet to near-infrared wavelengths. No correlation between layers disposition and surface spectral variegation has been observed so far. This paper investigates possible spectral differences among decametre-thickness outcropping layers of the biggest lobe of the comet by means of OSIRIS image dataset. A two-classes maximum likelihood classification was applied on consolidated outcrops and relative deposits identified on post-perihelion multispectral images of the big lobe. We distinguished multispectral data on the basis of the structural elevation of the onion-shell Ellipsoidal Model of 67P. The spatial distribution of the two classes displays a clear dependence on the structural elevation, with the innermost class resulting over 50 per cent brighter than the outermost one. Consolidated cometary materials located at different structural levels are characterized by different brightness and revealed due to the selective removal of large volumes. This variegation can be attributed to a different texture of the outcrop surface and/or to a different content of refractory materials. [ABSTRACT FROM AUTHOR]

Published
2018
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39. The phase function and density of the dust observed at comet 67P/Churyumov-Gerasimenko.

Author

Fulle, Marco, Bertini, I., Della Corte, V., Güttler, C., Ivanovski, S., La Forgia, F., Lasue, J., Levasseur-Regourd, A. C., Marzari, F., Moreno, F., Mottola, S., Naletto, G., Palumbo, P., Rinaldi, G., Rotundi, A., Sierks, H., Barbieri, C., Lamy, P. L., Rodrigo, R., and Koschny, D.

Subjects
DUST measurement, PHASE equilibrium, PARTICLE density (Nuclear chemistry), HYDROCARBONS, CHURYUMOV-Gerasimenko comet
Abstract

The OSIRIS camera onboard Rosetta measured the phase function of both the coma dust and the nucleus. The two functions have a very different slope versus the phase angle. Here, we show that the nucleus phase function should be adopted to convert the brightness to the size of dust particles larger than 2.5 mm only. This makes the dust bursts observed close to Rosetta by OSIRIS, occurring about every hour, consistent with the fragmentation on impact with Rosetta of parent particles, whose flux agrees with the dust flux observed by GIADA. OSIRIS also measured the antisunward acceleration of the fragments, thus providing the first direct measurement of the solar radiation force acting on the dust fragments and thus of their bulk density, excluding any measurable rocket effect by the ice sublimation from the dust. The obtained particle density distribution has a peak matching the bulk density of most COSIMA particles, and represents a subset of the density distribution measured by GIADA. This implies a bias in the elemental abundances measured by COSIMA, which thus are consistent with the 67P dust mass fractions inferred by GIADA, i.e. (38 ± 8) per cent of hydrocarbons versus the (62 ± 8) per cent of sulphides and silicates. [ABSTRACT FROM AUTHOR]

Published
2018
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40. Spectrophotometric investigation of Phobos with the Rosetta OSIRIS-NAC camera and implications for its collisional capture

Author

Pajola, M, Lazzarin, M, Bertini, I, Marzari, F, Turrini, D., Magrin, S, La Forgia, F, Thomas, N, Küppers, M, Moissl, R, Ferri, F, Barbieri, C, Rickman, H, Sierks, H, A’Hearn, Osiris Team (M., Angrilli, F., Barucci, A., Bertaux, J. -L., Cremonese, G., Davidsson, B., Da Deppo, V., Debei, S., De Cecco, M., Fornasier, S., Fulle, M., Groussin, O., Gutierrez, P., Hviid, S., W. -H., Ip, Jorda, L., Keller, H. U., Knollenberg, J., Koschny, D., Kramm, J. R., Kuehrt, E., Lamy, P., Lara, L. M., Lopez-Moreno, J. J., Michalik, H., Naletto, G., Rodrigo, R., Sabau, L., and Wenzel), K. -P.

Subjects
Solar System, 530 Physics, Mars, Context (language use), Individual, Spectral line, Rosetta Space Mission, Phobos, Phase angle (astronomy), Planet, Spectral slope, Formation -planets and satellites, Imaging spectroscopy -planets and satellites, Phobos -planets and satellites, Surfaces, Techniques, Physics, 520 Astronomy, Astronomy, Osiris images, Astronomy and Astrophysics, Mars Exploration Program, 620 Engineering, Space and Planetary Science, Asteroid
Abstract

The Martian satellite Phobos has been observed on 2007 February 24 and 25, during the pre- and post-Mars closest approach (CA) of the ESA Rosetta spacecraft Mars swing-by. The goal of the observations was the determination of the surface composition of different areas of Phobos, in order to obtain new clues regarding its nature and origin. Near-ultraviolet, visible and near-infrared (263.5–992.0 nm) images of Phobos's surface were acquired using the Narrow Angle Camera of the OSIRIS instrument onboard Rosetta. The six multi-wavelength sets of observations allowed a spectrophotometric characterization of different areas of the satellite, belonging respectively to the leading and trailing hemisphere of the anti-Mars hemisphere, and also of a section of its sub-Mars hemisphere. The pre-CA spectrophotometric data obtained with a phase angle of 19° have a spectral trend consistent within the error bars with those of unresolved/disc-integrated measurements present in the literature. In addition, we detect an absorption band centred at 950 nm, which is consistent with the presence of pyroxene. The post-CA observations cover from NUV to NIR a portion of the surface (0° to 43°E of longitude) never studied before. The reflectance measured on our data does not fit with the previous spectrophotometry above 650 nm. This difference can be due to two reasons. First, the OSIRIS observed area in this observation phase is completely different with respect to the other local specific spectra and hence the spectrum may be different. Secondly, due to the totally different observation geometry (the phase angle ranges from 137° to 140°), the differences of spectral slope can be due to phase reddening. The comparison of our reflectance spectra, both pre- and post-CA, with those of D-type asteroids shows that the spectra of Phobos are all redder than the mean D-type spectrum, but within the spectral dispersion of other D-types. To complement this result, we performed an investigation of the conditions needed to collisionally capture Phobos in a way similar to that proposed for the irregular satellites of the giant planets. Once put in the context of the current understanding of the evolution of the early Solar system, the coupled observational and dynamical results we obtained strongly argue for an early capture of Phobos, likely immediately after the formation of Mars.

Published
2012
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42. Surface Physical Properties of (21) Lutetia: Results from OSIRIS Observations During the Rosetta Fly-by

Author

Fornasier, S., Barbieri, C., Barucci, M. A., Da Deppo, V., De Leon, J., Fulchignoni, M., Hviid, S. F., Jorda, L., Keller, H. U., Küppers, M., La Forgia, F., Lara, L. M., Lazzarin, M., Leyrat, C., Magrin, S., Marchi, S., Schröder, S. E., Sierks, H., Vernazza, P., and the OSIRIS Team

Subjects
Osiris Images, Lutetia surface composition
Abstract

On July 10, 2010, the ESA Rosetta mission successfully flew by the asteroid 21 Lutetia, the biggest asteroid ever encountered by a space mission. The OSIRIS imaging system onboard Rosetta, equipped with a Narrow Angle Camera (NAC) and a Wide Angle Camera (WAC), observed the asteroid in 20 filters extending from 240 to 980 nm with a maximum spatial resolution of 60 m/px. Several color sequences were obtained at different rotational phases for the asteroid. Images with the Orange (647 nm) and OI (630 nm) filters of the NAC and WAC cameras were continously repeated to investigate the phase function in a wide phase angle range, from 0 to 156 degrees. In this work we will present unresolved spectrophotometry results, the albedo map and the phase function of 21 lutetia derived by the OSIRIS instrument. Potential albedo variations will be presented as well. We will finally discuss the implications for the mineralogy and the surface evolution of the asteroid.

Published
2010

43. Spatial Variations of Spectral Properties of (21) Lutetia as Observed by OSIRIS/Rosetta

Author

Leyrat, C., Sierks, H., Barbieri, C., Barucci, A., Da Deppo, V., De Leon, J., Fulchignoni, M., Fornasier, S., Groussin, O., Hviid, S. F., Jorda, L., Keller, H. U., La Forgia, F., Lara, L., Lazzarin, M., Magrin, S., Marchi, S., Thomas, N., Schroder, S. E., and the Osiris Team

Subjects
Physics::Space Physics, Astrophysics::Earth and Planetary Astrophysics
Abstract

On July 10, 2010, the Rosetta ESA/NASA spacecraft successfully flew by the asteroid (21) Lutetia, which becomes the largest asteroid observed by a space probe. The closest approach occurred at 15H45 UTC at a relative speed of 15km/s and a relative distance of 3160 km. The Narrow Angle Camera (NAC) and the Wide Angle Camera (WAC) of the OSIRIS instrument onboard Rosetta acquired images at different phase angles ranging from almost zero to more than 150 degrees. The best spatial resolution (60 m/pixel) allowed to reveal a very complex topography with several features and different crater's surface densities. Spectrophotometric analysis of the data could suggest spatial variations of the albedo and spectral properties at the surface of the asteroid, at least in the northern hemisphere. Numerous sets of data have been obtained at different wavelengths from 270nm to 980nm. We will first present a color-color analysis of data in order to locate landscapes where surface variegation is present. We will also present a more accurate study of spectral properties using the shape model and different statistical methods. Possible variations of the surface spectral properties with the slope of the ground and the gravity field orientation will be discussed as well.

Published
2010

44. Characterization of the Abydos region through OSIRIS high-resolution images in support of CIVA measurements.

Author

Lucchetti, A., Cremonese, G., Jorda, L., Poulet, F., Bibring, J.-P., Pajola, M., La Forgia, F., Massironi, M., El-Maarry, M. R., Oklay, N., Sierks, H., Barbieri, C., Lamy, P., Rodrigo, R., Koschny, D., Rickman, H., Keller, H. U., Agarwal, J., A'Hearn, M. F., and Barucci, M. A.

Subjects
COMETS, PHILAE (Space probe), SUBLIMATION (Chemistry), GRAVITATION, EROSION
Abstract

Context. On 12 November 2014, the European mission Rosetta delivered the Philae lander on the nucleus of comet 67P/Churyumov- Gerasimenko (67P). After the first touchdown, the lander bounced three times before finally landing at a site named Abydos. Aims. We provide a morphologically detailed analysis of the Abydos landing site to support Philae's measurements and to give context for the interpretation of the images coming from the Comet Infrared and Visible Analyser (CIVA) camera system onboard the lander. Methods. We used images acquired by the OSIRIS Narrow Angle Camera (NAC) on 6 December 2014 to perform the analysis of the Abydos landing site, which provided the geomorphological map, the gravitational slope map, the size-frequency distribution of the boulders. We also computed the albedo and spectral reddening maps. Results. The morphological analysis of the region could suggest that Philae is located on a primordial terrain. The Abydos site is surrounded by two layered and fractured outcrops and presents a 0.02 km2 talus deposit rich in boulders. The boulder size frequency distribution gives a cumulative power-law index of -4:0 + 0:3=-0:4, which is correlated with gravitational events triggered by sublimation and/or thermal fracturing causing regressive erosion. The average value of the albedo is 5.8% at λ1 = 480:7 nm and 7.4% at λ2 = 649:2 nm, which is similar to the global albedos derived by OSIRIS and CIVA, respectively. [ABSTRACT FROM AUTHOR]

Published
2016
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45. Pre-hibernation performances of the OSIRIS cameras onboard the Rosetta spacecraft.

Author

Magrin, S., La Forgia, F., Da Deppo, V., Lazzarin, M., Bertini, I., Ferri, F., Pajola, M., Barbieri, M., Naletto, G., Barbieri, C., Tubiana, C., Küppers, M., Fornasier, S., Jorda, L., and Sierks, H.

Subjects
*CHURYUMOV-Gerasimenko comet, *SOLAR system, *ASTRONOMICAL photometry, *SPACE vehicles, *CCD cameras
Abstract

Context. The ESA cometary mission Rosetta was launched in 2004. In the past years and until the spacecraft hibernation in June 2011, the two cameras of the OSIRIS imaging system (Narrow Angle and Wide Angle Camera, NAC and WAC) observed many different sources. On 20 January 2014 the spacecraft successfully exited hibernation to start observing the primary scientific target of the mission, comet 67P/Churyumov-Gerasimenko. Aims. A study of the past performances of the cameras is now mandatory to be able to determine whether the system has been stable through the time and to derive, if necessary, additional analysis methods for the future precise calibration of the cometary data. Methods. The instrumental responses and filter passbands were used to estimate the effciency of the system. A comparison with acquired images of specific calibration stars was made, and a refined photometric calibration was computed, both for the absolute flux and for the reflectivity of small bodies of the solar system. Results. We found a stability of the instrumental performances within 1.5% from 2007 to 2010, with no evidence of an aging effect on the optics or detectors. The effciency of the instrumentation is found to be as expected in the visible range, but lower than expected in the UV and IR range. A photometric calibration implementation was discussed for the two cameras. Conclusions. The calibration derived from pre-hibernation phases of the mission will be checked as soon as possible after the awakening of OSIRIS and will be continuously monitored until the end of the mission in December 2015. A list of additional calibration sources has been determined that are to be observed during the forthcoming phases of the mission to ensure a better coverage across the wavelength range of the cameras and to study the possible dust contamination of the optics. [ABSTRACT FROM AUTHOR]

Published
2015
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46. Spectrophotometric investigation of Phobos with the Rosetta OSIRIS-NAC camera and implications for its collisional capture.

Author

Pajola, M., Lazzarin, M., Bertini, I., Marzari, F., Turrini, D., Magrin, S., La Forgia, F., Thomas, N., Küppers, M., Moissl, R., Ferri, F., Barbieri, C., Rickman, H., and Sierks, H.

Subjects
SPECTROPHOTOMETRY, SPECTRUM analysis, PLANETS, ASTRONOMICAL observations, ASTROPHYSICAL collisions, PHOBOS (Satellite), MARS (Planet)
Abstract

ABSTRACT The Martian satellite Phobos has been observed on 2007 February 24 and 25, during the pre- and post-Mars closest approach (CA) of the ESA Rosetta spacecraft Mars swing-by. The goal of the observations was the determination of the surface composition of different areas of Phobos, in order to obtain new clues regarding its nature and origin. Near-ultraviolet, visible and near-infrared (263.5-992.0 nm) images of Phobos's surface were acquired using the Narrow Angle Camera of the OSIRIS instrument onboard Rosetta. The six multi-wavelength sets of observations allowed a spectrophotometric characterization of different areas of the satellite, belonging respectively to the leading and trailing hemisphere of the anti-Mars hemisphere, and also of a section of its sub-Mars hemisphere. The pre-CA spectrophotometric data obtained with a phase angle of 19° have a spectral trend consistent within the error bars with those of unresolved/disc-integrated measurements present in the literature. In addition, we detect an absorption band centred at 950 nm, which is consistent with the presence of pyroxene. The post-CA observations cover from NUV to NIR a portion of the surface (0° to 43°E of longitude) never studied before. The reflectance measured on our data does not fit with the previous spectrophotometry above 650 nm. This difference can be due to two reasons. First, the OSIRIS observed area in this observation phase is completely different with respect to the other local specific spectra and hence the spectrum may be different. Secondly, due to the totally different observation geometry (the phase angle ranges from 137° to 140°), the differences of spectral slope can be due to phase reddening. The comparison of our reflectance spectra, both pre- and post-CA, with those of D-type asteroids shows that the spectra of Phobos are all redder than the mean D-type spectrum, but within the spectral dispersion of other D-types. To complement this result, we performed an investigation of the conditions needed to collisionally capture Phobos in a way similar to that proposed for the irregular satellites of the giant planets. Once put in the context of the current understanding of the evolution of the early Solar system, the coupled observational and dynamical results we obtained strongly argue for an early capture of Phobos, likely immediately after the formation of Mars. [ABSTRACT FROM AUTHOR]

Published
2012
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48. Geomorphological and spectrophotometric analysis of Seth's circular niches on comet 67P/Churyumov–Gerasimenko using OSIRIS images

Author

Vincent, J. B., Da Deppo, V., Keller, H. U., Rodrigo, R., Preusker, F., Oklay, N., Gutierrez, P. J., Barbieri, C., Groussin, O., La Forgia, F., Lazzarin, M., Massironi, M., Knollenberg, J., A’Hearn, M. F., Scholten, F., Kramm, J. R., Bertini, I., Barucci, M. A., Koschny, D., Kührt, E., Naletto, G., Sierks, H., Pajola, M., Hviid, S. F., Lara, L. M., Rickman, H., Mottola, S., Ferrari, S., Hasselmann, P. H., Küppers, M., Bertaux, J. L., Agarwal, J., Tubiana, C., Deller, J., Feller, C., Hoffman, M., Davidsson, B., Cremonese, G., Fulle, M., Shi, X., Penasa, L., Ip, W. H., Lucchetti, A., Lin, L. Z., Marzari, F., Güttler, C., Jorda, L., Debei, S., Thomas, Nicolas, Boudreault, S., Lopez Moreno, J. J., Fornasier, S., De Cecco, M., and Lamy, P. L.

Subjects
13. Climate action, 520 Astronomy, 620 Engineering
Abstract

We provide a detailed geomorphological and spectrophotometric analysis of the circular niches located on the Seth region of 67P using OSIRIS images. The features can be related to landslide events that occurred on 67P and shaped its surface, as the recent Aswan cliff collapse detected in the same region. We therefore provide an analysis of the area pre- and post-perihelion suggesting that no specific changes have been observed. To assess this, after performing a geomorphological map of the area that allows us to identify different terrain units, we computed the boulders cumulative size frequency distribution (SFD) of the niches, before and after the perihelion passage. The niches SFDs are characterized by a similar trend with two different power-law indices within the same deposit: lower power-law value (between −2.3 and −2.7) for boulders smaller than 5 m and steeper power-law value (between −4.7 and −5.0) for boulders larger than 5 m. These trends suggest that smaller boulders have evolved and progressively have been depleted (lower power-law index), while bigger boulders are more representative of the event that generated the deposit and are less degraded. Then, we perform the spectrophotometric analysis of this region comparing pre- and post-perihelion results. We found colour changes within the area, in particular brighter patches related to the presence of exposed water ice mixed to the refractory materials have been detected in the post-perihelion images.

49. Physical properties and dynamical relation of the circular depressions on comet 67P/Churyumov-Gerasimenko

Author

Debei, S., Vincent, J.-B., Barbieri, C., Güttler, C., Jorda, L., Besse, S., Knollenberg, J., Sierks, H., Hviid, S. F., Bertaux, J.-L., Boudreault, S., Lowry, S., Lamy, P. L., Pajola, M., Keller, H. U., Rodrigo, R., Marzari, F., Fulle, M., Lazzarin, M., Fornasier, S., Bodewits, D., Kührt, E., Cremonese, G., Lee, J.-C., Tubiana, C., Koschny, D., Li, Y., La Forgia, F., Kramm, J.-R., Bertini, I., Küppers, M., Lin, Z.-Y., Oklay, N., Mottola, S., Toth, E., Ip, W.-H., El-Maarry, M. R., Agarwal, J., Barucci, M. A., López-Moreno, J. J., A’Hearn, M. F., Marchi, S., Da Deppo, V., Davidsson, B., Rickman, H., Cheng, Y.-C., De Cecco, M., Naletto, G., Lara, L. M., Michalik, H., Kovacs, G., Groussin, O., Lai, I.-L., Thomas, Nicolas, and Gutiérrez, P. J.

Subjects
13. Climate action, 530 Physics
Abstract

Aims. We aim to characterize the circular depressions of comet 67P/Churyumov-Gerasimenko and investigate whether such surface morphology of a comet nucleus is related to the cumulative sublimation effect since becoming a Jupiter family comet (JFC). Methods. The images from the Rosetta/OSIRIS science camera experiment are used to construct size frequency distributions of the circular depression structures on comet 67P and they are compared with those of the JFCs 81P/Wild 2, 9P/Tempel 1, and 103P/Hartley 2. The orbital evolutionary histories of these comets over the past 100 000 yr are analyzed statistically and compared with each other. Results. The global distribution of the circular depressions over the surface of 67P is charted and classified. Descriptions are given to the characteristics and cumulative size frequency distribution of the identified features. Orbital statistics of the JFCs visited by spacecraft are derived. Conclusions. The size frequency distribution of the circular depressions is found to have a similar power law distribution to those of 9P/Tempel 1 and 81P/Wild 2. This might imply that they could have been generated by the same process. Orbital integration calculation shows that the surface erosion histories of 81P/Wild 2, and 9P/Tempel 1 could be shorter than those of 67P, 103 P/Hartley 2 and 19P/Borrelly. From this point of view, the circular depressions could be dated back to the pre-JFC phase or the transneptunian phase of these comets. The north-south asymmetry in the distribution of the circular depressions could be associated with the heterogeneous structure of the nucleus of comet 67P and/or the solar insolation history.

50. The primordial nucleus of comet 67P/Churyumov-Gerasimenko

Author

Marzari, F., Güttler, C., Fulle, M., Lamy, P. L., Rickman, H., Thomas, Nicolas, Debei, S., Bertini, I., Mottola, S., Lopez Moreno, J. J., Naletto, G., Kramm, J.-R., Lara, L. M., Oklay, N., Da Deppo, V., Pajola, M., Groussin, O., Gutiérrez, P. J., Moissl-Fraund, R., De Cecco, M., Fornasier, S., Feller, C., Davidsson, B. J. R., Kührt, E., Jorda, L., Barbieri, C., Höfner, S., Knollenberg, J., La Forgia, F., Auger, A.-T., Küppers, M., A’Hearn, M. F., Elmaarry, Mohamed Ramy, Cremonese, G., Bertaux, J.-L., Hviid, S. F., Lazzarin, M., Barucci, M. A., Keller, H. U., Tubiana, C., Massironi, M., Sierks, H., Rodrigo, R., Kovacs, G., Snodgrass, C., Koschny, D., Vincent, J.-B., and Ip, W.-H.

Subjects
13. Climate action, 530 Physics, 520 Astronomy, Physics::Space Physics, Astrophysics::Earth and Planetary Astrophysics, 620 Engineering
Abstract

Context. We investigate the formation and evolution of comet nuclei and other trans-Neptunian objects (TNOs) in the solar nebula and primordial disk prior to the giant planet orbit instability foreseen by the Nice model. Aims. Our goal is to determine whether most observed comet nuclei are primordial rubble-pile survivors that formed in the solar nebula and young primordial disk or collisional rubble piles formed later in the aftermath of catastrophic disruptions of larger parent bodies. We also propose a concurrent comet and TNO formation scenario that is consistent with observations. Methods. We used observations of comet 67P/Churyumov-Gerasimenko by the ESA Rosetta spacecraft, particularly by the OSIRIS camera system, combined with data from the NASA Stardust sample-return mission to comet 81P/Wild 2 and from meteoritics; we also used existing observations from ground or from spacecraft of irregular satellites of the giant planets, Centaurs, and TNOs. We performed modeling of thermophysics, hydrostatics, orbit evolution, and collision physics. Results. We find that thermal processing due to short-lived radionuclides, combined with collisional processing during accretion in the primordial disk, creates a population of medium-sized bodies that are comparably dense, compacted, strong, heavily depleted in supervolatiles like CO and CO2; they contain little to no amorphous water ice, and have experienced extensive metasomatism and aqueous alteration due to liquid water. Irregular satellites Phoebe and Himalia are potential representatives of this population. Collisional rubble piles inherit these properties from their parents. Contrarily, comet nuclei have low density, high porosity, weak strength, are rich in supervolatiles, may contain amorphous water ice, and do not display convincing evidence of in situ metasomatism or aqueous alteration. We outline a comet formation scenario that starts in the solar nebula and ends in the primordial disk, that reproduces these observed properties, and additionally explains the presence of extensive layering on 67P/Churyumov-Gerasimenko (and on 9P/Tempel 1 observed by Deep Impact), its bi-lobed shape, the extremely slow growth of comet nuclei as evidenced by recent radiometric dating, and the low collision probability that allows primordial nuclei to survive the age of the solar system. Conclusions. We conclude that observed comet nuclei are primordial rubble piles, and not collisional rubble piles. We argue that TNOs formed as a result of streaming instabilities at sizes below similar to 400 km and that similar to 350 of these grew slowly in a low-mass primordial disk to the size of Triton, Pluto, and Eris, causing little viscous stirring during growth. We thus propose a dynamically cold primordial disk, which prevented medium-sized TNOs from breaking into collisional rubble piles and allowed the survival of primordial rubble-pile comets. We argue that comets formed by hierarchical agglomeration out of material that remained after TNO formation, and that this slow growth was a necessity to avoid thermal processing by short-lived radionuclides that would lead to loss of supervolatiles, and that allowed comet nuclei to incorporate similar to 3 Myr old material from the inner solar system.

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