Article 50CS2 An Iron-Clad Asteroid

An Iron-Clad Asteroid

by
Fnord666
from SoylentNews on (#50CS2)

Arthur T Knackerbracket has found the following story:

Itokawa would normally be a fairly average near-Earth asteroid -- a rocky mass measuring only a few hundred metres in diameter, which orbits the sun amid countless other celestial bodies and repeatedly crosses the orbit of the Earth. But there is one fact that sets Itokawa apart: in 2005 it became[sic received?] a visit from Earth. The Japanese space agency JAXA sent the Hayabusa probe to Itokawa, which collected soil samples and brought them safely back to Earth -- for the first time in the history of space travel. This valuable cargo arrived in 2010 and since then, the samples have been the subject of intensive research.

A team from Japan and Jena has now succeeded in coaxing a previously undiscovered secret from some of these tiny sample particles: the surface of the dust grains is covered with tiny wafer-thin crystals of iron. This observation surprised Prof. Falko Langenhorst and Dr Dennis Harries of Friedrich Schiller University in Jena. After all, over the last 10 years, research teams all over the world have exhaustively studied the structure and chemical composition of the dust particles from Itokawa, and no one had noticed the iron 'whiskers'. It was only when Japanese researcher Dr Toru Matsumoto, who is spending a year as a visiting scientist with the Analytical Mineralogy group at the Institute of Geosciences in Jena, examined the particles with a transmission electron microscope that he was able to locate the crystals using high-resolution images.

[...] This discovery is exciting not only because the tiny iron 'whiskers' -- which have since been shown on other particles from the asteroid as well -- had previously been missed. Of particular interest is how they were formed. "These structures are the consequence of cosmic influences on the surface of the asteroid," explains Falko Langenhorst. In addition to rocks, high-energy particles from the solar wind also strike the asteroid's surface, thus weathering it. An important constituent of the asteroid is the mineral troilite, in which iron and sulphur are bound. "As a result of space weathering, the iron is released from the troilite and deposited on the surface in the form of the needles that have now been discovered," says the mineralogist Langenhorst. The sulphur from the iron sulphide then evaporates into the surrounding vacuum in the form of gaseous sulphur compounds.

[Emphasis in original. --martyb]

Journal Reference:

Toru Matsumoto, Dennis Harries, Falko Langenhorst, Akira Miyake, Takaaki Noguchi. Iron whiskers on asteroid Itokawa indicate sulfide destruction by space weathering. Nature Communications, 2020; 11 (1) DOI: 10.1038/s41467-020-14758-3

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