Heterogeneous mass distribution of the rubble-pile asteroid (101955) Bennu

The gravity field of a small body provides insight into its internal mass distribution. We used two approaches to measure the gravity field of the rubble-pile asteroid (101955) Bennu: (i) tracking and modeling the spacecraft in orbit about the asteroid and (ii) tracking and modeling pebble-sized par...

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Autores principales: Scheeres, D. J., French, A. S., Tricarico, P., Chesley, S. R., Takahashi, Y., Farnocchia, D., McMahon, J. W., Brack, D. N., Davis, A. B., Ballouz, R.-L., Jawin, E. R., Rozitis, B., Emery, J. P., Ryan, A. J., Park, R. S., Rush, B. P., Mastrodemos, N., Kennedy, B. M., Bellerose, J., Lubey, D. P., Velez, D., Vaughan, A. T., Leonard, J. M., Geeraert, J., Page, B., Antreasian, P., Mazarico, E., Getzandanner, K., Rowlands, D., Moreau, M. C., Small, J., Highsmith, D. E., Goossens, S., Palmer, E. E., Weirich, J. R., Gaskell, R. W., Barnouin, O. S., Daly, M. G., Seabrook, J. A., Al Asad, M. M., Philpott, L. C., Johnson, C. L., Hartzell, C. M., Hamilton, V. E., Michel, P., Walsh, K. J., Nolan, M. C., Lauretta, D. S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Association for the Advancement of Science 2020
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7544499/
https://www.ncbi.nlm.nih.gov/pubmed/33033036
http://dx.doi.org/10.1126/sciadv.abc3350
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author Scheeres, D. J.
French, A. S.
Tricarico, P.
Chesley, S. R.
Takahashi, Y.
Farnocchia, D.
McMahon, J. W.
Brack, D. N.
Davis, A. B.
Ballouz, R.-L.
Jawin, E. R.
Rozitis, B.
Emery, J. P.
Ryan, A. J.
Park, R. S.
Rush, B. P.
Mastrodemos, N.
Kennedy, B. M.
Bellerose, J.
Lubey, D. P.
Velez, D.
Vaughan, A. T.
Leonard, J. M.
Geeraert, J.
Page, B.
Antreasian, P.
Mazarico, E.
Getzandanner, K.
Rowlands, D.
Moreau, M. C.
Small, J.
Highsmith, D. E.
Goossens, S.
Palmer, E. E.
Weirich, J. R.
Gaskell, R. W.
Barnouin, O. S.
Daly, M. G.
Seabrook, J. A.
Al Asad, M. M.
Philpott, L. C.
Johnson, C. L.
Hartzell, C. M.
Hamilton, V. E.
Michel, P.
Walsh, K. J.
Nolan, M. C.
Lauretta, D. S.
author_facet Scheeres, D. J.
French, A. S.
Tricarico, P.
Chesley, S. R.
Takahashi, Y.
Farnocchia, D.
McMahon, J. W.
Brack, D. N.
Davis, A. B.
Ballouz, R.-L.
Jawin, E. R.
Rozitis, B.
Emery, J. P.
Ryan, A. J.
Park, R. S.
Rush, B. P.
Mastrodemos, N.
Kennedy, B. M.
Bellerose, J.
Lubey, D. P.
Velez, D.
Vaughan, A. T.
Leonard, J. M.
Geeraert, J.
Page, B.
Antreasian, P.
Mazarico, E.
Getzandanner, K.
Rowlands, D.
Moreau, M. C.
Small, J.
Highsmith, D. E.
Goossens, S.
Palmer, E. E.
Weirich, J. R.
Gaskell, R. W.
Barnouin, O. S.
Daly, M. G.
Seabrook, J. A.
Al Asad, M. M.
Philpott, L. C.
Johnson, C. L.
Hartzell, C. M.
Hamilton, V. E.
Michel, P.
Walsh, K. J.
Nolan, M. C.
Lauretta, D. S.
author_sort Scheeres, D. J.
collection PubMed
description The gravity field of a small body provides insight into its internal mass distribution. We used two approaches to measure the gravity field of the rubble-pile asteroid (101955) Bennu: (i) tracking and modeling the spacecraft in orbit about the asteroid and (ii) tracking and modeling pebble-sized particles naturally ejected from Bennu’s surface into sustained orbits. These approaches yield statistically consistent results up to degree and order 3, with the particle-based field being statistically significant up to degree and order 9. Comparisons with a constant-density shape model show that Bennu has a heterogeneous mass distribution. These deviations can be modeled with lower densities at Bennu’s equatorial bulge and center. The lower-density equator is consistent with recent migration and redistribution of material. The lower-density center is consistent with a past period of rapid rotation, either from a previous Yarkovsky-O’Keefe-Radzievskii-Paddack cycle or arising during Bennu’s accretion following the disruption of its parent body.
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spelling pubmed-75444992020-10-20 Heterogeneous mass distribution of the rubble-pile asteroid (101955) Bennu Scheeres, D. J. French, A. S. Tricarico, P. Chesley, S. R. Takahashi, Y. Farnocchia, D. McMahon, J. W. Brack, D. N. Davis, A. B. Ballouz, R.-L. Jawin, E. R. Rozitis, B. Emery, J. P. Ryan, A. J. Park, R. S. Rush, B. P. Mastrodemos, N. Kennedy, B. M. Bellerose, J. Lubey, D. P. Velez, D. Vaughan, A. T. Leonard, J. M. Geeraert, J. Page, B. Antreasian, P. Mazarico, E. Getzandanner, K. Rowlands, D. Moreau, M. C. Small, J. Highsmith, D. E. Goossens, S. Palmer, E. E. Weirich, J. R. Gaskell, R. W. Barnouin, O. S. Daly, M. G. Seabrook, J. A. Al Asad, M. M. Philpott, L. C. Johnson, C. L. Hartzell, C. M. Hamilton, V. E. Michel, P. Walsh, K. J. Nolan, M. C. Lauretta, D. S. Sci Adv Research Articles The gravity field of a small body provides insight into its internal mass distribution. We used two approaches to measure the gravity field of the rubble-pile asteroid (101955) Bennu: (i) tracking and modeling the spacecraft in orbit about the asteroid and (ii) tracking and modeling pebble-sized particles naturally ejected from Bennu’s surface into sustained orbits. These approaches yield statistically consistent results up to degree and order 3, with the particle-based field being statistically significant up to degree and order 9. Comparisons with a constant-density shape model show that Bennu has a heterogeneous mass distribution. These deviations can be modeled with lower densities at Bennu’s equatorial bulge and center. The lower-density equator is consistent with recent migration and redistribution of material. The lower-density center is consistent with a past period of rapid rotation, either from a previous Yarkovsky-O’Keefe-Radzievskii-Paddack cycle or arising during Bennu’s accretion following the disruption of its parent body. American Association for the Advancement of Science 2020-10-08 /pmc/articles/PMC7544499/ /pubmed/33033036 http://dx.doi.org/10.1126/sciadv.abc3350 Text en Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). https://creativecommons.org/licenses/by-nc/4.0/ https://creativecommons.org/licenses/by-nc/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial license (https://creativecommons.org/licenses/by-nc/4.0/) , which permits use, distribution, and reproduction in any medium, so long as the resultant use is not for commercial advantage and provided the original work is properly cited.
spellingShingle Research Articles
Scheeres, D. J.
French, A. S.
Tricarico, P.
Chesley, S. R.
Takahashi, Y.
Farnocchia, D.
McMahon, J. W.
Brack, D. N.
Davis, A. B.
Ballouz, R.-L.
Jawin, E. R.
Rozitis, B.
Emery, J. P.
Ryan, A. J.
Park, R. S.
Rush, B. P.
Mastrodemos, N.
Kennedy, B. M.
Bellerose, J.
Lubey, D. P.
Velez, D.
Vaughan, A. T.
Leonard, J. M.
Geeraert, J.
Page, B.
Antreasian, P.
Mazarico, E.
Getzandanner, K.
Rowlands, D.
Moreau, M. C.
Small, J.
Highsmith, D. E.
Goossens, S.
Palmer, E. E.
Weirich, J. R.
Gaskell, R. W.
Barnouin, O. S.
Daly, M. G.
Seabrook, J. A.
Al Asad, M. M.
Philpott, L. C.
Johnson, C. L.
Hartzell, C. M.
Hamilton, V. E.
Michel, P.
Walsh, K. J.
Nolan, M. C.
Lauretta, D. S.
Heterogeneous mass distribution of the rubble-pile asteroid (101955) Bennu
title Heterogeneous mass distribution of the rubble-pile asteroid (101955) Bennu
title_full Heterogeneous mass distribution of the rubble-pile asteroid (101955) Bennu
title_fullStr Heterogeneous mass distribution of the rubble-pile asteroid (101955) Bennu
title_full_unstemmed Heterogeneous mass distribution of the rubble-pile asteroid (101955) Bennu
title_short Heterogeneous mass distribution of the rubble-pile asteroid (101955) Bennu
title_sort heterogeneous mass distribution of the rubble-pile asteroid (101955) bennu
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7544499/
https://www.ncbi.nlm.nih.gov/pubmed/33033036
http://dx.doi.org/10.1126/sciadv.abc3350
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