Condensed mater can mimic all sorts of exotic particles. Science has just
found the weyl particle in certain material with strong spin orbit coupling.

http://phys.org/news/2015-12-weyl-fermion-discovery-ten-breakthrough.html

The Weyl fermion was predicted by Dirac but never found in isolation.

https://en.wikipedia.org/wiki/Weyl_semimetal

https://www.quora.com/Quantum-Field-Theory-What-is-a-Weyl-fermion

This particle also produces monopole magitism. Condensed matter can
generate all kinds of exotic particles that have not yet been found in
isolation. I believe that the Tachyon monopole  has been produced in
condensed matter and plays a major tole in LENR,





On Thu, Jun 16, 2016 at 2:03 PM, Jones Beene <jone...@pacbell.net> wrote:

> Here is your terrifying scare-of-the day. It was inspired by Nick
> Bostrom’s new book which does not go anywhere near this far.
>
>
>
> In the context of LENR, it has been mentioned here that nickel-62 is a
> one-of-a-kind singularity in the periodic table. It is the most stable
> isotope in all of nature, with the highest binding energy per nucleon (8.8
> MeV). Is this kind of stability a marker for another unique property?
>
>
>
> If a very expansive version of supersymmetry is found in nature, it could
> be possible that quantum dots of select pure isotopes can mimic not only a
> single atom of a different element, but can even mimic other basic
> particles, including perhaps the new one discovered at LHC of mass-energy
> 750 GeV.
>
>
>
> Google: superatom, if you have doubts that the first part of this
> proposition is feasible. The magic numbers for superatoms start at 13… and
> a quantum dot of 13 62Ni atoms would act as another particle in a strong
> version of supersymmetry. The most basic quantum dot of 62Ni does indeed
> have 13 atoms in an closely bound crystal. 62Ni is also bosonic.
>
> Now, imagine the 13 atom quantum dot made of the isotope nickel 62 as a
> condensate. It would have mass-energy of 751 GeV. Let’s assume that this
> particle has two potential identities – one being related to nickel 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 in a unit
> of ~750 GeV mass-energy.
>
> Finally, how much of a stretch is it to propose using strong
> supersymmetry - that in cryogenic conditions in a multi-T magnetic field,
> the quantum dot BEC of nickel can transition into a new identity as the
> super-Higgs, possibly benefitting from ignition from a laser pulse to
> accomplish this transition… following which, it will decay in the same
> fashion as seen at LHC.
>
> There are major implications of that possibility, and that is the scare.
>
> A gram of 62Ni is about .016 moles and could contains about 10^19 quantum
> dots of the isotope. A closer estimate, which account for impurities and
> imperfections would be 10^17 quantum dots, and the energy of each one, if
> transitioned into the super Higgs would be 751 GeV each or about 7.5*10^28
> eV total.
>
> Could that happen? Hope not, since its more than all the nukes in
> everyone’s arsenal. Could a gram of anything spell the end of everything…
> that is the big scare.
>
> If so, this outcome explains why some scientists believe that ALL
> technologically advanced civilizations eventually and inevitably
> self-annihilate once they reach a certain plateau … the proof of that
> uncomfortable realization being simply that there should be many such
> civilizations, but we know of none.
>
> The good news is that we do not have to worry about living in a Sim…
>
> … that would be because all the previous civilized societies have built
> large hadron colliders, found the super-Higgs, discovered superatoms and
> quantum dots… dissed cold fusion, and then… with history repeating itself
> over-and-over, the crazy cold-fusioneers have connected the dots to prove a
> painful point …
>
> … thereby eliminating all the pathoskeptics, for good J
>
>
>

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