Optical Properties of (162173) 1999 JU3: In Preparation for the JAXA   Hayabusa 2 Sample Return Mission

Masateru Ishiguro; Daisuke Kuroda; Sunao Hasegawa; Myung-Jin Kim,; Young-Jun Choi; Nicholas Moskovitz; Shinsuke Abe; Kang-Sian Pan; Jun; Takahashi; Yuhei Takagi; Akira Arai; Noritaka Tokimasa; Henry H. Hsieh,; Joanna E. Thomas-Osip; David J. Osip; Masanao Abe; Makoto Yoshikawa; Seitaro; Urakawa; Hidekazu Hanayama; Tomohiko Sekiguchi; Kohei Wada; Takahiro Sumi,; Paul J. Tristram; Kei Furusawa; Fumio Abe; Akihiko Fukui; Takahiro Nagayama,; Dhanraj S. Warjurkar; Arne Rau; Jochen Greiner; Patricia Schady; Fabian; Knust; Fumihiko Usui; Thomas G. Mueller

arXiv:1407.5569·astro-ph.EP·June 22, 2015·5 cites

Optical Properties of (162173) 1999 JU3: In Preparation for the JAXA Hayabusa 2 Sample Return Mission

Masateru Ishiguro, Daisuke Kuroda, Sunao Hasegawa, Myung-Jin Kim,, Young-Jun Choi, Nicholas Moskovitz, Shinsuke Abe, Kang-Sian Pan, Jun, Takahashi, Yuhei Takagi, Akira Arai, Noritaka Tokimasa, Henry H. Hsieh,, Joanna E. Thomas-Osip, David J. Osip, Masanao Abe, Makoto Yoshikawa

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TL;DR

This study analyzes the optical properties of asteroid (162173) 1999 JU3 to support the JAXA Hayabusa 2 mission, employing advanced photometric models to determine surface reflectance and albedo characteristics.

Contribution

It applies Shevchenko and Hapke photometric models to better characterize the asteroid's phase relation and surface properties for mission planning.

Findings

01

Linear magnitude-phase relation over 5-75 degrees

02

Weak opposition brightening at small phase angles

03

Surface properties consistent with C-type asteroids

Abstract

We investigated the magnitude-phase relation of (162173) 1999 JU3, a target asteroid for the JAXA Hayabusa 2 sample return mission. We initially employed the international Astronomical Union's H-G formalism but found that it fits less well using a single set of parameters. To improve the inadequate fit, we employed two photometric functions, the Shevchenko and Hapke functions. With the Shevchenko function, we found that the magnitude-phase relation exhibits linear behavior in a wide phase angle range (alpha = 5-75 deg) and shows weak nonlinear opposition brightening at alpha< 5 deg, providing a more reliable absolute magnitude of Hv = 19.25 +- 0.03. The phase slope (0.039 +- 0.001 mag/deg) and opposition effect amplitude (parameterized by the ratio of intensity at alpha=0.3 deg to that at alpha=5 deg, I(0.3)/I(5)=1.31+-0.05) are consistent with those of typical C-type asteroids. We also…

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Taxonomy

TopicsAtmospheric Ozone and Climate · Ionosphere and magnetosphere dynamics · Atomic and Subatomic Physics Research