Category: Physics

  • ALICE solves mystery of light-nuclei survival

    ALICE solves mystery of light-nuclei survival

    Observations of the formation of light nuclei from high-energy collisions may help in the hunt for dark matter

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  • Deciphering the heavyweights of the tetraquark world

    Deciphering the heavyweights of the tetraquark world

    The CMS collaboration reports the first measurement of the quantum properties of a family of tetraquarks that was recently discovered at the LHC

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  • First observation of single top quark production with W and Z bosons

    First observation of single top quark production with W and Z bosons

    This incredibly rare phenomenon, observed at the CMS experiment, can help probe the fundamental forces of nature

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  • Ion recycling to illuminate the heaviest elements

    Ion recycling to illuminate the heaviest elements

    A sophisticated electrostatic trap at CERN’s ISOLDE facility could help researchers probe the chemical reactivity of the rarest and least understood elements

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  • Molecules of pear-shaped atomic nuclei bear fruit

    Molecules of pear-shaped atomic nuclei bear fruit

    A new ISOLDE study of molecules containing pear-shaped atomic nuclei helps shape future research aimed at testing fundamental symmetries of nature

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  • European Strategy update enters final straight

    European Strategy update enters final straight

    The completion of the Physics Briefing Book on 2 October marks a major milestone towards the 2026 update of the European Strategy for Particle Physics

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  • Searching for new physics with beauty particles

    Searching for new physics with beauty particles

    A new LHCb analysis confirms a previously observed tension with the Standard Model, but more data and improved theoretical calculations are needed to determine whether new physics is at play

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  • Shape-shifting collisions probe secrets of early Universe

    Shape-shifting collisions probe secrets of early Universe

    The first high-energy collisions between light nuclei at the Large Hadron Collider confirm the unusual “bowling-pin” shape of neon nuclei and offer up a new tool to study the extreme state of matter produced in the aftermath of the Big Bang

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  • ISOLDE investigates island of inversion

    ISOLDE investigates island of inversion

    An experiment carried out at CERN’s ISOLDE facility has determined the western shore of a small island of atomic nuclei, where conventional nuclear rules break down

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  • A quantum leap for antimatter measurements

    A quantum leap for antimatter measurements

    Demonstration of first antimatter quantum bit paves the way for substantially improved tests of nature’s fundamental symmetries

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