Earth, Planets and Space (Nov 2022)

Derivation of 1.064 μm normal albedos on the C-type asteroid Ryugu from laser pulse intensity measurement of the Hayabusa2 LIDAR

  • Ryuhei Yamada,
  • Keiko Yamamoto,
  • Shoko Oshigami,
  • Hiroshi Araki,
  • Hiroki Senshu,
  • Hirotomo Noda,
  • Noriyuki Namiki,
  • Koji Matsumoto,
  • Fumi Yoshida,
  • Shinsuke Abe,
  • Naru Hirata,
  • Sho Sasaki,
  • Takahide Mizuno

DOI
https://doi.org/10.1186/s40623-022-01717-z
Journal volume & issue
Vol. 74, no. 1
pp. 1 – 18

Abstract

Read online

Abstract Japanese asteroid explorer Hayabusa2 arrived at C-type asteroid 162,173 Ryugu in June 2018. The laser altimeter (LIDAR) onboard Hayabusa2 measured its own transmitted laser and returned pulse intensities from a Ryugu surface until November 2019. Because the Ryugu surface is extremely rough, topography dominates over the material properties in the conventional derivation of normal albedo. Thus, we developed a method to retrieve the normal albedo from the rough surface of a C-type asteroid at a LIDAR laser wavelength of 1.064 μm. The albedo map covering an equatorial band between – 40° and + 20° in latitude was created with 3˚-by-3˚ resolution using the intensity data obtained before the conjunction of the spacecraft with the Sun. The average of the normal albedo is 0.0405 $$\pm$$ ± 0.0027, whereas approximately half of the 3°-by-3° grids are between 0.04 and 0.045. The low and uniform normal albedo feature is common to other remote-sensing observations of Ryugu by visible and near-infrared cameras onboard Hayabusa2. Graphical Abstract

Keywords