论文信息 - The dynamic geophysical environment of (101955) Bennu based on OSIRIS-REx measurements - 字舞流文

The dynamic geophysical environment of (101955) Bennu based on OSIRIS-REx measurements

The top-shaped morphology characteristic of asteroid (101955) Bennu, often found among fast-spinning asteroids and binary asteroid primaries, may have contributed substantially to binary asteroid formation. Yet a detailed geophysical analysis of this morphology for a fast-spinning asteroid has not been possible prior to the Origins, Spectral Interpretation, Resource Identification, and Security-Regolith Explorer (OSIRIS-REx) mission. Combining the measured Bennu mass and shape obtained during the Preliminary Survey phase of the OSIRIS-REx mission, we find a notable transition in Bennu’s surface slopes within its rotational Roche lobe, defined as the region where material is energetically trapped to the surface. As the intersection of the rotational Roche lobe with Bennu’s surface has been most recently migrating towards its equator (given Bennu’s increasing spin rate), we infer that Bennu’s surface slopes have been changing across its surface within the last million years. We also find evidence for substantial density heterogeneity within this body, suggesting that its interior is a mixture of voids and boulders. The presence of such heterogeneity and Bennu’s top shape are consistent with spin-induced failure at some point in its past, although the manner of its failure cannot yet be determined. Future measurements by the OSIRIS-REx spacecraft will provide insight into and may resolve questions regarding the formation and evolution of Bennu’s top-shape morphology and its link to the formation of binary asteroids.Bennu’s surface has experienced continuous changes, mostly induced by its accelerating spin rate, which could have resulted in a collapse of its interior in the past. This scenario is also supported by the heterogeneity of Bennu’s internal mass distribution.

M. C. Nolan | K. Getzandanner | D. S. Lauretta | R. W. Gaskell | J. M. Leonard | E. B. Bierhaus | E. R. Jawin | the OSIRIS-REx Team | D. Farnocchia | H. C. M. Susorney | J. R. Weirich | M. Moreau | D. Rowlands | M. Nolan | W. Bottke | D. Scheeres | R. Gaskell | E. Mazarico | P. Michel | O. Barnouin | B. Rozitis | K. Walsh | S. Chesley | D. Farnocchia | D. Lauretta | M. Daly | Diego Paul Sánchez Lana | R. Ballouz | E. Palmer | A. French | P. Tricarico | Y. Takahashi | J. McMahon | D. Brack | E. Jawin | J. Emery | J. Leonard | J. Geeraert | B. Page | P. Antreasian | K. Getzandanner | J. Small | D. Highsmith | J. Weirich | J. Seabrook | M. A. Al Asad | C. Johnson | M. Hirabayashi | S. Van wal | H. Connolly | E. Bierhaus | S. R. Chesley | P. Antreasian | D. E. Highsmith | O. S. Barnouin | W. F. Bottke | K. J. Walsh | M. G. Daly | J. P. Emery | J. W. McMahon | D. J. Scheeres | B. Rozitis | Y. Takahashi | M. Moreau | A. S. French | D. N. Brack | J. Geeraert | B. Page | D. Rowlands | E. M. Mazarico | J. Small | M. Hirabayashi | P. Sánchez | S. Van wal | P. Tricarico | R.-L. Ballouz | C. L. Johnson | M. M. Al Asad | J. A. Seabrook | E. E. Palmer | P. Michel | H. C. Jr Connolly | The OSIRIS-REx Team | H. Susorney

[1] D. Scheeres,et al. Scaling forces to asteroid surfaces: The role of cohesion , 2010, 1002.2478.

[2] Davide Farnocchia,et al. The OSIRIS-REx Radio Science Experiment at Bennu , 2018 .

[3] D. Scheeres. Orbital motion in strongly perturbed environments , 2012 .

[4] D. N. DellaGiustina,et al. Properties of rubble-pile asteroid (101955) Bennu from OSIRIS-REx imaging and thermal analysis , 2019, Nature Astronomy.

[5] William V. Boynton,et al. The OSIRIS-REx Laser Altimeter (OLA) Investigation and Instrument , 2017 .

[6] D. Scheeres,et al. INTERNAL STRUCTURE OF ASTEROIDS HAVING SURFACE SHEDDING DUE TO ROTATIONAL INSTABILITY , 2015, 1506.03354.

[7] D. Scheeres,et al. Equatorial cavities on asteroids, an evidence of fission events , 2017 .

[8] James Evans,et al. MONTE: the next generation of mission design and navigation software , 2018 .

[9] M. K. Crombie,et al. The Unexpected Surface of Asteroid (101955) Bennu , 2019, Nature.

[10] D. Vokrouhlický,et al. In search of the source of asteroid (101955) Bennu: Applications of the stochastic YORP model , 2015 .

[11] J. Haislip,et al. Binary asteroid population. 3. Secondary rotations and elongations , 2016 .

[12] T. J. McCoy,et al. Craters, boulders and regolith of (101955) Bennu indicative of an old and dynamic surface , 2019, Nature Geoscience.

[13] P. Michel,et al. Spin-up of rubble-pile asteroids: Disruption, satellite formation, and equilibrium shapes , 2012 .

[14] M. K. Crombie,et al. Shape of (101955) Bennu indicative of a rubble pile with internal stiffness , 2019, Nature geoscience.

[15] D. Scheeres,et al. Orbital Stability Regions for Hypothetical Natural Satellites of (101955) Bennu , 2016, Journal of Spacecraft and Rockets.

[16] Richard P. Binzel,et al. The geophysical environment of Bennu , 2016 .

[17] D. Scheeres,et al. The lift-off velocity on the surface of an arbitrary body , 2016, Celestial Mechanics and Dynamical Astronomy.

[18] Daniel J. Scheeres,et al. STRESS AND FAILURE ANALYSIS OF RAPIDLY ROTATING ASTEROID (29075) 1950 DA , 2014, 1411.5926.

[19] D. Vokrouhlický,et al. Orbit and bulk density of the OSIRIS-REx target Asteroid (101955) Bennu , 2014, 1402.5573.

[20] Detection of Rotational Acceleration of Bennu Using HST Light Curve Observations , 2019, Geophysical Research Letters.

[21] Dathon Golish,et al. IN-FLIGHT CALIBRATION OF THE OSIRIS-REX OPTICAL NAVIGATION IMAGERS , 2018 .

[22] D. Scheeres. Landslides and Mass shedding on spinning spheroidal asteroids , 2014, 1409.4015.

[23] D. Scheeres,et al. Rotationally induced failure of irregularly shaped asteroids , 2018, Icarus.

[24] D. Scheeres,et al. Systematic Structure and Sinks in the YORP Effect , 2019, The Astronomical Journal.

[25] S. Ostro,et al. Dynamical Configuration of Binary Near-Earth Asteroid (66391) 1999 KW4 , 2006, Science.

[26] Benjamin W. Ashman,et al. Optical Navigation Algorithm Performance , 2018 .

[27] D. Scheeres,et al. Lift-Off Velocity on Solar-System Small Bodies , 2017 .

[28] D. Scheeres. Orbital motion in strongly perturbed environments : applications to asteroid, comet and planetary satellite orbiters , 2012 .

[29] D. Minton. The topographic limits of gravitationally bound, rotating sand piles , 2008 .

[30] T. Statler,et al. Extreme sensitivity of the YORP effect to small-scale topography , 2009, 0903.1119.

[31] R. W. Gaskell. Automated landmark identification for spacecraft navigation , 2001 .

[32] The influence of rough surface thermal-infrared beaming on the Yarkovsky and YORP effects , 2012, 1203.1464.

[33] D. Scheeres,et al. Rotational evolution of self-gravitating aggregates with cores of variable strength , 2018, Planetary and Space Science.

[34] R. Tanner,et al. OCAMS: The OSIRIS-REx Camera Suite , 2017, 1704.04531.

[35] A. Harris,et al. On the shapes and spins of “rubble pile” asteroids , 2009 .

[36] Kenneth Getzandanner,et al. OSIRIS-REx Flight Dynamics and Navigation Design , 2018 .

[37] D R Golish,et al. The operational environment and rotational acceleration of asteroid (101955) Bennu from OSIRIS-REx observations , 2019, Nature Communications.

[38] D. Scheeres,et al. Dynamics of rotationally fissioned asteroids: Source of observed small asteroid systems , 2011, 1404.0801.

[39] R. Jaumann,et al. Hayabusa2 arrives at the carbonaceous asteroid 162173 Ryugu—A spinning top–shaped rubble pile , 2019, Science.