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    Cosmic ‘Dust factory’ reveals clues to how Stars are Born

    July 10, 2017, Categories  Astronomy/Space

    This artist's illustration of Supernova 1987A reveals the cold, inner regions of the exploded star's remnants (red) where tremendous amounts of dust were detected and imaged by ALMA. This inner region is contrasted with the outer shell (blue), where the energy from the supernova is colliding (green) with the envelope of gas ejected from the star prior to its powerful detonation. Credit: A. Angelich; NRAO/AUI/NSF

    This artist’s illustration of Supernova 1987A reveals the cold, inner regions of the exploded star’s remnants (red) where tremendous amounts of dust were detected and imaged by ALMA. This inner region is contrasted with the outer shell (blue), where the energy from the supernova is colliding (green) with the envelope of gas ejected from the star prior to its powerful detonation. Credit: A. Angelich; NRAO/AUI/NSF

    A group of scientists led by researchers at Cardiff University have discovered a rich inventory of molecules at the centre of an exploded star for the very first time. 2 previously undetected molecules, formylium (HCO+) and sulphur monoxide (SO), were found in the cooling aftermath of Supernova 1987A, 163,000 light years away in a nearby neighbour of our own Milky Way galaxy...

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    “Forbidden” substances may Increase Heat Transfer rates and Strengthen Magnetic fields on Super-Earths

    December 30, 2015, Categories  Astronomy/Space

    Using math models, scientists have ‘looked’ into the interior of super-Earths and discovered hey may have compounds that are forbidden by the classical rules of chemistry – these substances may increase the heat transfer rate and strengthen the magnetic field on these planets. The researchers attempted to see which compounds may be formed by S, O, and Mg at high pressures. These particular elements were not chosen by chance. “Earth-like planets consist of a thin silicate crust, a silicate-oxide mantle – which makes up ~7/8 of the Earth’s volume and consists more than 90% of silicates and magnesium oxide – and an iron core. We can say that magnesium, oxygen, and silicon form the basis of chemistry on Earth and on Earth-like planets,” says Oganov...

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