Title of article
Small-scale topography of 25143 Itokawa from the Hayabusa laser altimeter
Author/Authors
Barnouin-Jha، نويسنده , , Olivier S. and Cheng، نويسنده , , Andrew F. and Mukai، نويسنده , , Tadashi and Abe، نويسنده , , Shinsuke and Hirata، نويسنده , , Naru and Nakamura، نويسنده , , Ryosuke and Gaskell، نويسنده , , Robert W. and Saito، نويسنده , , Jun and Clark، نويسنده , , Beth E.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
17
From page
108
To page
124
Abstract
The surface topography of Asteroid 25143 Itokawa is explored using the LIght Detection And Ranging instrument (LIDAR). The data confirm the presence of a rough highland and a smooth lowland. The highland is dominated by boulders, but also possesses topography associated with surface lineaments and broad surface facets. The boulders ensure that the roughness of the highlands over short distances is typically greater relative to most surfaces on 433 Eros. Over larger distances, Itokawa is always smoother than Eros possibly because of its smaller size and weak rubble-pile structure. The lowlands of Itokawa are very smooth, and are typically devoid of boulders. Some transitional regions midway between the highlands and lowlands also exist. In these areas, craters that retain their regolith fill possess flat floors and resemble “ponds” seen on 433 Eros. Analyses of surface elevation, imagery and a quantitative measure of surface roughness are consistent with regolith flowing downhill from the highlands to fill in the low areas of Itokawa, probably covering up any pre-existing rough terrain. Using this interpretation, we find a minimum 2.3 ± 0.4 m thick layer of regolith in the lowlands, which, if spread evenly across the entire asteroid, corresponds to a 42 ± 1 cm thick layer. It is very difficult to generate this amount of regolith with the population of craters seen on Itokawa. However, an Itokawa composed of several large masses may have retained this regolith during its formation. The presence of such large masses could account for the observed lineaments and what appear to be exposures of bedrock on the largest steep slope observed.
Keywords
asteroid Itokawa , Orbit Determination , Asteroids surfaces
Journal title
Icarus
Serial Year
2008
Journal title
Icarus
Record number
2376462
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