Earth, Planets and Space (Jan 2018)

Initial products of Akatsuki 1-μm camera

  • Naomoto Iwagami,
  • Takeshi Sakanoi,
  • George L. Hashimoto,
  • Kenta Sawai,
  • Shoko Ohtsuki,
  • Seiko Takagi,
  • Kazunori Uemizu,
  • Munetaka Ueno,
  • Shingo Kameda,
  • Shin-ya Murakami,
  • Masato Nakamura,
  • Nobuaki Ishii,
  • Takumi Abe,
  • Takehiko Satoh,
  • Takeshi Imamura,
  • Chikako Hirose,
  • Makoto Suzuki,
  • Naru Hirata,
  • Atsushi Yamazaki,
  • Takao M. Sato,
  • Manabu Yamada,
  • Yukio Yamamoto,
  • Tetsuya Fukuhara,
  • Kazunori Ogohara,
  • Hiroki Ando,
  • Ko-ichiro Sugiyama,
  • Hiroki Kashimura,
  • Toru Kouyama

DOI
https://doi.org/10.1186/s40623-017-0773-5
Journal volume & issue
Vol. 70, no. 1
pp. 1 – 19

Abstract

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Abstract The status and initial products of the 1-μm camera onboard the Akatsuki mission to Venus are presented. After the successful retrial of Venus’ orbit insertion on Dec. 2015 (5 years after the failure in Dec. 2010), and after a long cruise under intense radiation, damage in the detector seems small and fortunately insignificant in the final quality of the images. More than 600 dayside images have been obtained since the beginning of regular operation on Apr. 2016 although nightside images are less numerous (about 150 in total at three wavelengths) due to the light scattered from the bright dayside. However, data acquisition stopped after December 07, 2016, due to malfunction of the electronics and has not been resumed since then. The 0.90-µm dayside images are of sufficient quality for the cloud-tracking procedure to retrieve wind field in the cloud region. The results appear to be similar to those reported by previous 1-μm imaging by Galileo and Venus Express. The representative altitude sampled for such dayside images is estimated to be 51–55 km. Also, the quality of the nightside 1.01-µm images is sufficient for a search for active volcanism, since interference due to cloud inhomogeneity appears to be insignificant. The quality of the 0.97-µm images may be insufficient to achieve the expected spatial resolution for the near-surface H2O mixing ratio retrievals.

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