Imagine the basic 13 atom FCC quantum dot made of the isotope nickel 62. It would have mass-energy of 751 GeV. This crystal is composed of atomic and nuclear bosons (pure 62Ni).
Let’s assume that this particle has two potential identities – one being the particle described above and the other being the unexpected new particle discovered at the LHC which can be described as the superset of the Higgs – 6 Higgs bosons as a unit of 750 GeV mass-energy. Finally, how much of a stretch is it to assume strong supersymmetry such that at cryogenic conditions in a multi-T magnetic field, the quantum dot of the first paragraph can transition into a new identity as the super-Higgs, possibly benefitting from a laser pulse - and decay in the same fashion as seen at LHC. Whoa. There are major implications of that possibility.
