Population characteristics of submicrometer-sized craters on regolith particles from asteroid Itokawa

Matsumoto, Toru; Hasegawa, Susumu; Nakao, Satoru; Sakai, Makoto; Yurimoto, H.

doi:10.1016/j.icarus.2017.12.017

Cited by 20 publications

(13 citation statements)

References 43 publications

(73 reference statements)

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“…This corresponds to~1 × 10 −18 nm/yr, which is an extremely low rate. Submicron-sized impact craters on troilite in Itokawa particles show no evidence for whisker growth 51 . Moreover, examined troilite surfaces with iron whiskers do not correspond to crater floors.…”

Section: Discussionmentioning

confidence: 91%

Iron whiskers on asteroid Itokawa indicate sulfide destruction by space weathering

et al. 2020

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Extraterrestrial iron sulfide is a major mineral reservoir of the cosmochemically and astrobiologically important elements iron and sulfur. Sulfur depletion on asteroids is a longstanding, yet unresolved phenomenon that is of fundamental importance for asteroid evolution and sulfur delivery to the Earth. Understanding the chemistry of such environments requires insight into the behavior of iron sulfides exposed to space. Here we show that troilite (FeS) grains recovered from the regolith of asteroid 25143 Itokawa have lost sulfur during long-term space exposure. We report the widespread occurrence of metallic iron whiskers as a decomposition product formed through irradiation of the sulfide by energetic ions of the solar wind. Whisker growth by ion irradiation is a novel and unexpected aspect of space weathering. It implies that sulfur loss occurs rapidly and, furthermore, that ion irradiation plays an important role in the redistribution of sulfur between solids and gas of the interstellar medium.

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Section: Discussionmentioning

confidence: 91%

Iron whiskers on asteroid Itokawa indicate sulfide destruction by space weathering

et al. 2020

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“…Compared to the most studied lunar soils, the samples from Itokawa are highly immature, with some grains showing almost no signs of surface modification at the nanoscale (Noguchi et al 2014a(Noguchi et al , 2014b. While microscale craters and melt splashes associated with micrometeoroid impacts have been observed on a number of grains (Harries et al 2016;Matsumoto et al 2018), most of the rim features seen on Itokawa particles are linked to solar wind irradiation and sputtering (Keller and Berger 2014;Noguchi et al 2014b; Thompson et al 2014).…”

Section: Introductionmentioning

confidence: 98%

“…2016; Matsumoto et al. 2018), most of the rim features seen on Itokawa particles are linked to solar wind irradiation and sputtering (Keller and Berger 2014; Noguchi et al. 2014b; Thompson et al.…”

Section: Introductionmentioning

confidence: 99%

Comparison of space weathering features in three particles from Itokawa

Burgess

Stroud

Sandford

2021

Meteorit & Planetary Scien

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The return of samples from S-type asteroid 25143 Itokawa have enabled significant improvements in our understanding of space weathering on asteroids and the link between S-type asteroids and ordinary chondrites. We report on three new particles, providing details on space weathering of adjacent grains within a particle and several different phases. The features we observe are consistent with formation via irradiation from the solar wind, as opposed to micrometeoroid bombardment. We also see differences in the degree of weathering for grains collected from the two different touchdown locations on the asteroid. Continued analysis of new grains from Itokawa allow us to draw a more complete picture of the variety of space weathering features and the processes that lead to their formation on Itokawa and other airless bodies.

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“…• Based on the concentration of the Neon ion and the number density of the solar flare tracks of Itokawa particles, it was estimated that the particle size remained within few centimeters for a duration of 150-550 yr (Nagao et al 2011) and approximately thousands to tens of thousands of years (Noguchi et al 2014;Keller & Berger 2014), respectively. • Matsumoto et al (2018) demonstrated that the dominant cratering process on the Itokawa particles in the submicrometer range was caused by the secondary ejecta created by primary impacts on the Itokawa surface. If it is assumed that the secondary crater formation rate is equivalent to the lunar impact flux, the measured age based on the number of submicrometer craters can be estimated to be approximately thousands of years.…”

Section: Introductionmentioning

confidence: 99%

Q-type asteroids: Possibility of non-fresh weathered surfaces

Hasegawa

Hiroi

Ohtsuka³

et al. 2019

Publications of the Astronomical Society of Japan

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Itokawa particles, which are the recovered samples from the S-complex asteroid 25143 Itokawa by the Hayabusa spacecraft, demonstrate that S-complex asteroids are parent bodies of ordinary chondrite meteorites. Furthermore, they clarify that the space weathering age of the Itokawa surface is of the order of several thousand years. Traditionally, Q-type asteroids have been considered fresh-surfaced. However, as the space weathering timescale is approximately three orders of magnitude lesser than the conventionally considered age, the previously proposed formation mechanisms of Q-type asteroids cannot sufficiently explain the surface refreshening. In this study, we propose a new hypothesis on the surface state of Q-type asteroids: Q-type asteroids have a non-fresh weathered surface with a paucity of fine particles. For verifying this hypothesis, laboratory experiments on the space weathering of ordinary chondrites are performed. Based on the results of these experiments, we found that large (more than 100 µm) ordinary chondritic particles with space weathering exhibit spectra consistent with Q-type asteroids. These meteorites are not used because their spectral type is unique (see section 3.3). † These laser irradiated samples are not used because the spectrum slope of the pellet before laser irradiation is bluer than those of the chip (see section 3.3).

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Population characteristics of submicrometer-sized craters on regolith particles from asteroid Itokawa

Cited by 20 publications

References 43 publications

Iron whiskers on asteroid Itokawa indicate sulfide destruction by space weathering

Iron whiskers on asteroid Itokawa indicate sulfide destruction by space weathering

Comparison of space weathering features in three particles from Itokawa

Q-type asteroids: Possibility of non-fresh weathered surfaces

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