4.5 Article

Modeling optical roughness and first-order scattering processes from OSIRIS-REx color images of the rough surface of asteroid (101955) Bennu

Journal

ICARUS
Volume 357, Issue -, Pages -

Publisher

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.icarus.2020.114106

Keywords

Asteroid Bennu; Asteroids, surfaces; Radiative transfer; Image processing; Photometry

Funding

  1. DIM-ACAV+ project (Region Ile-de-France, France)
  2. NASA through the New Frontiers Program [NNM10AA11C]
  3. Canadian Space Agency

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By studying the dark asteroid (101955) Bennu through NASA's OSIRIS-REx mission, researchers found that its surface is boulder-rich and dust-poor, making it an ideal natural laboratory for investigating single-scattering processes in rough particulate media. Utilizing statistical models and digital terrain models, researchers were able to obtain scattering parameters and discovered a low non-zero specular ratio on Bennu's surface.
The dark asteroid (101955) Bennu studied by NASA' s OSIRIS-REx mission has a boulder-rich and apparently dust-poor surface, providing a natural laboratory to investigate the role of single-scattering processes in rough particulate media. Our goal is to define optical roughness and other scattering parameters that may be useful for the laboratory preparation of sample analogs, interpretation of imaging data, and analysis of the sample that will be returned to Earth. We rely on a semi-numerical statistical model aided by digital terrain model (DTM) shadow ray-tracing to obtain scattering parameters at the smallest surface element allowed by the DTM (facets of similar to 10 cm). Using a Markov Chain Monte Carlo technique, we solved the inversion problem on all four-band images of the OSIRIS-REx mission' s top four candidate sample sites, for which high-precision laser altimetry DTMs are available. We reconstructed the a posteriori probability distribution for each parameter and distinguished primary and secondary solutions. Through the photometric image correction, we found that a mixing of low and average roughness slope best describes Bennu's surface for up to 90 degrees phase angle. We detected a low non-zero specular ratio, perhaps indicating exposed sub-centimeter mono-crystalline inclusions on the surface. We report an average roughness RMS slope of 27 degrees(+1)(-5), a specular ratio of 2.6(-0.8)(+0.1)%, an approx. single-scattering albedo of 4.64(-0.09)(+0.08)% at 550 nm, and two solutions for the back-scatter asymmetric factor, xi((1)) = - 0.360 +/- 0.030 and xi(()(2)) = - 0.444 +/- 0.020, for all four sites altogether.

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