Δημοσιεύτηκε στις 4 Σεπ 2014
Abstract: The discovery of the Higgs
boson at the CERN Large Hadron Collider poses new challenges to our
understanding of basic quantum physics. Unless other new physics
intervenes, we appear to live in a universe that is slightly unstable
and will eventually decay catastrophically. Supersymmetry can stabilize
the vacuum, but so far searches for superpartner particles at the LHC
have come up empty. New ideas jettison supersymmetry, and instead
connect the Higgs boson to dark matter.
boson at the CERN Large Hadron Collider poses new challenges to our
understanding of basic quantum physics. Unless other new physics
intervenes, we appear to live in a universe that is slightly unstable
and will eventually decay catastrophically. Supersymmetry can stabilize
the vacuum, but so far searches for superpartner particles at the LHC
have come up empty. New ideas jettison supersymmetry, and instead
connect the Higgs boson to dark matter.
ΜΕΤΑΦΟΡΤΩΘΗΚΕ ΑΠΟ ΤΟ YOUTUBE 24/9/2014
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