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    Grains of dust from asteroid Ryugu older than our solar system

    (a) Backscattered electron (BSE) image of Ryugu thin section A0058-2. Every black area consists of ∼20 NanoSIMS maps measured. (b) An area in section C0002 with a less altered lithology than the surrounding Ryugu matrix (“clast 1”; BSE image). This area contains Mg-rich olivine, low-Ca pyroxenes, and spinel grains with sizes up to ∼15 μm (Kawasaki et al. 2022). Two of three O-anomalous grains identified in Ryugu, including one likely presolar silicate (g)–(h), were found in this region. (c)–(e) Secondary electron (SE) image of a Ryugu particle pressed into gold foil in which two presolar SiC grains were detected. The C-anomalous regions, indicated by the white arrows, are clearly associated with 28Si hotspots. (f) 17O-rich presolar oxide found in the Ryugu A0058-2 matrix. (g)–(h) This O-anomalous presolar grain was found in the less altered area shown in (b). The inlet in (g) shows a δ18O sigma image in which every pixel represents the number of standard deviations from the average values. The grain is probably a presolar silicate as Si is present in the EDX map, and Al was neither detected in the EDX map nor the NanoSIMS ion image, unlike the adjacent spinel (MgAl2O4), purple in color in (h). Credit: The Astrophysical Journal Letters (2022). DOI: 10.3847/2041-8213/ac83bd

    An international team of researchers studying dust samples retrieved by the Hayabusa-2 space probe, has found that some of its dust grains are older than the solar system. In their paper published in The Astrophysical Journal Letters, the group describes their analysis of the dust from the asteroid and what they found.

    The Hayabusa-2 space probe began its mission back in 2014 as it was launched into space aboard a H-IIA 202 rocket. It rendezvoused with the near-Earth asteroid 162173 Ryugu four years later. After circling the asteroid for two years, it descended to its surface and grabbed a sample of its surface dust. It then blasted off and made its way back to Earth.

    Ryugu is situated 300 million kilometers from Earth and circles the sun every 16 months. It has been described as little more than an assemblage of gravel, likely made from the debris of several other asteroids. Other research has shown that it likely formed in the outer part of the solar system and has been creeping inward since—others yet suggest its dust hints at the possibility of Earth’s water coming from a similar asteroid.

    Since the sample of dust collected by the probe returned to Earth, parts of it have been passed around the world to different researchers eager to test it in different ways. In this new effort, the researchers looked to determine its age—they note that different kinds of grains in asteroids such as Ryugu originated from different types of stars and stellar processes. The age of the grains in their dust can be identified and dated by their isotopic signatures.

    In studying the Ryugu dust sample, the researchers compared them to grains found in carbonaceous chondrite meteorites that have been found on Earth. They note that just 5% of such meteorites have been found to harbor grains that predate the creation of the solar system—some of which have been dated to 7 billion years ago. The researchers found that the dust sample held grains identical to all of the others that have been seen in meteorites, showing that it too predates the solar system. They note that one in particular, a silicate that is known to be very easily destroyed, must have been protected somehow from damage by the sun.


    Space mission shows Earth’s water may be from asteroids: study


    More information:
    Jens Barosch et al, Presolar Stardust in Asteroid Ryugu, The Astrophysical Journal Letters (2022). DOI: 10.3847/2041-8213/ac83bd

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    Grains of dust from asteroid Ryugu older than our solar system (2022, August 18)
    retrieved 19 August 2022
    from https://phys.org/news/2022-08-grains-asteroid-ryugu-older-solar.html

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