Stardust analysis reveals secrets beyond Sol
==========
A team led by Curtin University researchers has discovered a rare dust particle within an ancient meteorite that originates from a star beyond our Solar System. The particle was analyzed using atom probe tomography, revealing a magnesium isotopic ratio of 3,025, the highest on record and indicative of its formation in a hydrogen-burning supernova. The research sheds light on the processes governing star life cycles and the cosmic landscape.
#Stardust #CurtinUniversity #Meteorite #AtomProbeTomography #MagnesiumIsotopicRatio #Supernova #StarFormation #CosmicLandscape
https://www.spacedaily.com/reports/Stardust_analysis_reveals_secrets_beyond_Sol_999.html
Space Daily /
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2024-03-28 07:04:01
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2024-03-28 07:04:01Event JSON
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"content": "Stardust analysis reveals secrets beyond Sol\n==========\n\nA team led by Curtin University researchers has discovered a rare dust particle within an ancient meteorite that originates from a star beyond our Solar System. The particle was analyzed using atom probe tomography, revealing a magnesium isotopic ratio of 3,025, the highest on record and indicative of its formation in a hydrogen-burning supernova. The research sheds light on the processes governing star life cycles and the cosmic landscape.\n\n#Stardust #CurtinUniversity #Meteorite #AtomProbeTomography #MagnesiumIsotopicRatio #Supernova #StarFormation #CosmicLandscape\n\nhttps://www.spacedaily.com/reports/Stardust_analysis_reveals_secrets_beyond_Sol_999.html",
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